LightBlog

lundi 31 octobre 2016

Project Fi app adds real-time data usage info for Android 7.0 Nougat users

Project-Fi-Review-5

If you are using Google's Project Fi wireless service, and if your phone has at least Android 7.0 Nougat installed, you can now get some more accurate info on how much data your device is using. Google revealed today that a server-side update has enabled real-time data uses with the Project Fi app.

Project-Fi-Review-1See also: Google Project Fi review63

According to a post on Reddit by the company's community manager, subscribers must have at least version K.2.7.20 of the Project Fi app installed to check out the real-time data usage info. It's available on both the main app screen, or you can check it out via the data usage home screen widget.

In addition to overall data usage info, the update also lets users see which apps are using the most data on their device. This might come in handy if you are on a plan with a limited amount of data, so you can close apps that might be using a lot of your bandwidth but which might not be ones that you are currently interacting with at the time. The app will also sent out an alert if your data usage reaches a certain threshold. You also have the option of going into your phone' settings so when it reaches a certain data cap, any cellular data on your phone will turn off automatically.

It's actually very cool that Google has added such a handy way to keep track of your Project Fi data. If you are subscribed to the service, what do you think of this new feature?

Get it from Google Play


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Blue Coral Galaxy S7 edge will be available in US and other select markets

galaxy-s7-edge-coral-blue_main_1

The killer S-Pen features and the futuristic iris scanner weren't the only things that differentiated the late Galaxy Note 7 from the Galaxy S7 edge: the Galaxy Note 7 came in a brand new color called Blue Coral. After the Note 7 was discontinued, Samsung sought ways to compensate for the absence of its Note flagship, and that's how the Blue Coral Galaxy S7 edge was born.

S7-edge-thumbnailSee also: Samsung Galaxy S7 edge review95

We saw leaked photos of a Verizon-bound unit earlier this month, and just a few days ago, Samsung Taiwan officially announced that the curved smartphone in this mystical hue would be available in the country starting November 1st. Well, today, Samsung Electronics took a moment to say that indeed, the Blue Coral version of the beloved Galaxy S7 edge will be available in select markets around the world including the US:

Starting November 1, the Blue Coral Galaxy S7 edge will be available in selected markets around the globe. Specific availability details will be announced by each market's wireless providers and regional Samsung offices.

Judging by the pricing in Taiwan, it looks like the Blue Coral Galaxy S7 edge will have the same price tag as the other colors. Unfortunately, Samsung doesn't seem to have any plans to bring the new color option to the flat-screen version of the S7.

Just to recap, the Galaxy S7 edge launched back in March with a 5.5-inch Quad HD display that curves on both sides. The phone is powered by Snapdragon 820 coupled with 4GB of RAM. The S7 edge boasts a 3,600 mAh battery, and quite frankly, it's the best battery life that I've seen from any Samsung flagship device. Unlike the Galaxy S6, the S7 family has a microSD slot and is IP68 certified. The best feature, however, is arguably its camera – a 12-megapixel camera with f/1.7 aperture that uses the ultra-fast Dual Pixel autofocus technology.

It's not clear yet when each country or carrier will get the blue version of the Galaxy S7 edge, but we will be sure to keep you updated! In the meantime, you can check out the gallery below for more images:

Will you consider buying the Blue Coral Galaxy S7 edge or are you waiting for the Galaxy S8? Let us know by leaving a comment below!



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Beyond dual cameras: how Light wants to take on the DSLR

light-l16

Smartphone photography enthusiasts may remember when we talked about the Light L16 "multi-aperture computational camera" last year. To celebrate the camera's commercial launch, the company has spilt a few more details about how the setup works. At $1,699 a pop, now up from its $1,299 pre-order price, the Light L16 certainly doesn't come cheap, but it does offer a glimpse of what should be possible in future flagship smartphones, once costs come down.

In case you missed our last look at the gadget, the L16 boasts 16 different inexpensive plastic-lens image sensors packed into a slims phone sized form factor. Combined with some proprietary algorithms, this allows the camera to offer up 52-megapixel images with a variable focal point between 28 and 150mm, which works out to roughly a 5.4x zoom. For comparison, the dual-camera technology inside the iPhone 7 Plus only offers up a fixed 2x zoom / focal point adjustment, while the Kirin 960 processor heading to the Mate 9 goes a step further by allowing for a more adjustable 4x zoom.

However, there's much more to this technology than simulating an optical zoom. The Light project is all about bringing the features and quality usually associated with DSLR cameras to the convenience of the smartphone form factor.

I had to plan ahead if I wanted to take pictures with one of my good cameras, which I did less and less. As I talked with other avid photographers, I discovered I wasn't the only one who had expensive camera gear gathering dust. It's not that any of us were happy with the quality of the pictures we were taking with our phones—indeed, we were all frustrated by it. But at the end of the day, convenience always won out. – Dr Rajiv Laroia, Light L16 creator

The problem with phones

There's a very good reason that smartphone cameras can't match up with the quality of DSLRs and that's largely due to size. Handset image sensors are substantially smaller, typically less than 30mmcompared with DSLR sensor sizes of at least 370mmall the way up to Full Frame 864mmsensors. Smaller sensors capture much less light in each pixel and also suffer from greatly increased noise as the megapixel count increases, because individual pixels become smaller. As a result, image quality in smartphone cameras is diminished compared to larger DSLR sensors.

This hasn't stopped smartphone cameras from performing quite well though, as manufacturers have finally started balancing pixel sizes against sensor size and resolution. The top performing smartphone cameras – namely the Galaxy S7, iPhone 7, and Google Pixel – all feature 12-megapixel sensors and perform well in good lighting conditions. However, low-light performance and zoom features are still far behind DSLRs.

In addition, tiny phone form factors prevent manufacturers from incorporating large, adjustable lenses. This is why smartphone cameras have a fixed focal point that covers a very large range. While this keeps everything in focus, it prevents zooming and is useless at taking artistic pictures with a specific point of focus in the shot.

Lately, companies including HTC, LG, Huawei, and Apple have been turning to clever dual sensor setups to boost not only image quality, but also the features available to photographers, such as variable focal lengths for artistic bokeh shots.

phone-vs-dslr-soft-blur

The fixed focal length of smartphones (left) can't produce much in the way of bokeh. Also, the DSLR (right) produces a nicer soft transition into the background focus.

phone-vs-dslr-low-light

The small LG G3 (left) sensor overexposes in low light and suffers from a lot of noise. An inexpensive Nikon D3300 (right) performs better, thanks to its larger sensor.

We saw our first post processing bokeh effect on smartphones years ago, and now low light improvements and "optical" zoom features are the latest improvements to head our way.  The L16 takes this whole premise to the next level with a wider range of sensors and shooting options. google pixel and pixel xl first look hands on aa-42Shootout: How good is the new Pixel XL camera?78

How it works

The Light L16 is a rather strange gadget to behold, as it features 16 individual sensors, five of which have a fairly standard 28mm field of view, five others feature telephoto lenses that offer the equivalent of a 70mm focal length, and then there are six 150mm equivalent cameras included, as well. Each lens has a fixed aperture of f/2.4, an actuator for moving the lens to focus the image, and is accompanied by a 13-megapixel AR1335 CMOS image sensor.

The real magic comes in with the last 11 of these sensors, which are accompanied a mirror in front of the lens. This mirror can be moved slightly to adjust the center of the module's field of view, which is important for aligning the different sensors when taking pictures at different focal points. So, rather than using mechanical lenses, the L16 uses mirrors to adjust points of focus. The image below shows an example of 28, 70, and 150mm focal lengths.

When it comes to actually taking a picture, the L16 uses up to 10 of the image sensors which are in the best location to capture detail for the desired focal length. When capturing a 70mm picture, the mirrors point the 70mm sensors directly out of the camera, while four 150mm modules see their mirrors adjust to match the 70mm field of view. Data from the 70mm image is then used to align and stitch together data from the "more zoomed in" 150mm sensors to produce a crisp 52-megapixel resolution result.light-l16-variable-focal-length

When it comes to capturing a picture of a focal length in between the camera hardware values of 28, 70, and 150mm, the same overlapping technique is used, along with some cropping. So when capturing a 50mm image, for example, the 28mm cameras create the base image which is cropped to a 50mm frame. The 70mm camera mirrors then align these sensors to overlap the new 50mm frame, and pixels from these pictures are then stitched together to give a 40-megapixel pixel result.

While the resolution boost is nice, we should also remember that this detail is being captured with many more camera sensors. This is actually registering much more light than a single sensor, and gives a wider dynamic range because each of these modules also has a slightly different exposure when taking a picture.

With some additional software tricks, overexposing some pictures can help remove noise from dark areas, and under exposure on a different sensor can help capture highlights in more detail at the same time. Modern smartphones can do HDR by taking a succession of differently exposed pictures over time, but this can produce smearing as the pixels don't always line up correctly. In theory, Light's option should provide a better looking HDR image, as all the pictures are captured simultaneously.

S7-S7Edge-vs-6P-1of11(smaller) (4)Related: Best Android smartphone cameras40

In addition to light data, the distances between these sensors also allows the Light L16 to capture depth data in the scene. This can be used to implement a software based bokeh effect, allowing photographers to change the level and type of blur after the image has been taken, either with the camera software or in a separate editing program on a computer. Photographers can also pick between different blur types, such as disk-shaped bokeh, star-shaped bokeh, or a Gaussian blur. You would have to spend a fortune on lenses to achieve the same flexibility with a DSLR.

Beyond the L16

The Light L16 is not without some trade-offs though. The processing power of current smartphones isn't enough to handle the huge amount of data in a timely fashion and within a reasonable power budget. The current Snapdragon 820-based implementation allows for real time processing of these 16 sensors, but only resulting in a resolution of 3 megapixels. That's enough for social media, but not really making the most of the hardware available here.

In the future, Light intends to integrate a dedicated image processor in its next generation design, which will enable the system to process everything in hardware, thereby speeding up full resolution image processing and adjusting depth of field on the fly. In the meantime, users will have to use a PC for full resolution image adjustments. Speaking of next generation hardware, Light is aiming to produce a new model that will offer a 600mm lens equivalent option in the future. This would offer a zoom of 21.4x between 28mm and 600mm, and would bring an experience currently limited to $12,000 top of the line DSLR lenses to a compact form factor.

Further improvements are on the way to Light with tweaks to the sensors themselves. Rather than capturing a filtered RGB spectrum, Light intends to mix in sensors that don't feature filters to collect even more light. We have already seen similar ideas in smartphones with the monochrome image sensors using in the Huawei P9 and Honor 8, which helps to capture more light and can use this data and software algorithms to improve HDR.

Huawei-P9-Plus-16

Dual camera smartphones are already here, and we may see more unconventional designs in the future to improve photography results.

LG V20 hands on 38See also: Qualcomm Clear Sight technology could power more dual camera handsets7

Along with a next generation L16 camera, Dr Laroia says that he's looking forward to seeing Light technology migrate into cellphones. Light is currently working with On Semiconductor to produce its new filter-less sensor array, and manufacturer Foxconn has already licensed the technology from Light. Unfortunately, we don't have any details about any smartphone products that will make use of Light's technology, nor can we be sure exactly sure what specifications will make their way to a smartphone design.

Of course, we have also to wait until the technology actually arrives inside smartphones before we can compare results with today's and tomorrow's flagships. Even so, the technology looks to offer some substantial benefits and the move to dual cameras has paved the way for more interesting ideas to begin appearing in consumer products.



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Learn Unreal Engine by making games

The AA Picks team is on the prowl for things we think our readers will value. If we make an affiliate partnership to reduce the costs of purchases, then we may see a share of revenue.

Last week, we discovered Ben Tristem, a online coding instructor whose approach to teaching involves walking students through making games. We thought that this was an interesting method that bypassed much of the dull rigmarole that usually comes part and parcel with learning how to program.

It seems our readers did as well, so we looked around to see what else Tristem had to offer.

Although that previous course focused on building games using Unity, Tristem also teaches another course that focuses on Unreal Engine. This could be a good option for potential developers who are looking on building more robust, triple-A titles.

It's an ambitious goal, but Tristem walks through game development at the same gradual pace as his previous course. Since you get lifetime access to all the course materials, you can walk through all 240 lectures and the 40 hours of video content at your own pace.

Tristem notes that Unreal Engine makes a good option for the more artistically inclined game maker, as it offers a bevy of tools that enable you to unleash your creativity in the gaming medium.

It's a smaller course than his Unity one, with only 23,400 students currently enrolled (compared to over 100,000), but this may be due it attracting more ambitious students. It currently boasts a 4.7-star score from over 4,300 ratings.

Normally the course runs $195, but right now Tristem is running the same offer on this one as he is on the Unity course: 95% off. That means you get the whole kit-and-kaboodle for just $10, but even at that price, Tristem will give you your money back if you decide the course isn't for you within 30 days.

Unfortunately, we're a little late to the game on this one, because this sale is ending today, meaning you have very little time to jump on it. However, we're going to keep an eye on this course and see if we can arrange some other kind of deal for our readers in the future.

What are you waiting for? Start learning how to program by making games!

The Unreal Engine Developer Course – Learn C++ & Make Games

Disclosure: This offer is brought to you by AA Picks. Our purpose is to highlight products or services we think you as our readers might be interested in and, if you buy them, we may get a share of the revenue. We operate independently from our advertising sales team, and we welcome your feedback and questions. Email us at aapicks@androidauthority.com.



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Xiaomi testing phones on US wireless networks, could launch in 2017

xiaomi-mi-note-2-hands-on-first-look-aa-12

China-based Xiaomi is making some very early preparations to offer its family of smartphones in the U.S. through wireless carriers. A new report confirms that the company is currently testing smartphones on those networks, and an official U.S. launch could happen as early as 2017.

xiaomi-mi-note-2-hands-on-thumbSee also: Xiaomi Mi Note 2 hands on90

In a chat with Engadget, Xiaomi's Global Vice-President Hugo Barra stated that U.S. network testing started with a special version of the company's Mi 5 smartphone. However, he did not reveal exactly when these carrier tests began. He did say that the recently revealed Mi Note 2 will be another one of its phones that will be tested on U.S. networks.

The article points out that the company will have to learn how carriers test phones in the U.S. before they can officially launch in the country. That includes ensuring compatibility with some of the more unique bands that U.S. carriers employ. While the beginning of testing represents a huge step for Xiaomi in their plans to enter the massive U.S. smartphone market, Barra also cautions that it is indeed just a first step, saying, "We're not going to launch something until we're ready."

Are you excited about the prospect of Xiaomi entering the U.S. market with its high-end, but also economical, smartphones in the future?



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Furbies can’t make phone calls | Podcast 086

aapodcastfeatured_imageaap086

Jonathan Feist returns from Japan, Joe Hindy and David Imel have questions and our regular Android Authority Podcast tech talk ensues for another episode. Joe is a little upset about fake Amazon reviews, Jonathan drones on for half an hour about Japan, (which was awesome, by the way), David is unhappy with Google's versioning strategy, but happy for a Messenger update, Kris Carlon said the Apple A10 chip is pretty powerful, we talk it through and Xiaomi has a couple new phones, the Mi Note 2 and the Mi MIX, which Josh was in China to put his hands on.

Finally, we take to Twitter and the Android Authority Forums to take your questions and comments, leading us to ponder if Google is positioning itself to purchase HTC. Think about it.

The Android Authority Podcast – discussing topics in Android every single week.

Rough Timecodes:
Amazon review gripes and Jonathan's Japan trip during check in
46:00 – Google Messenger update
56:00 – Apple A10 chipset
66:00 – Xiaomi Mi Note 2
84:00 – Your questions from the Forums and Twitter

Links to Podcast

RSS Feed
iTunes
Stitcher
SoundCloud
Direct Download

Relevant Links

Android Authority Forums
Google Messenger updated to 2.0
Google Allo updated as well
Apple's A10 chipset is pretty powerful
Xiaomi Mi Note 2, all the best hardware in one package
Xiaomi Mi MIX – crazy screen ratio

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Andrew Grush
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November 2016 giveaways

(Actually, these are the October giveaways. Check back in a couple days, I'll update these for November! Sorry.)

Recorded on October 27th, 2016 – Hosted and produced by Jonathan Feist on behalf of Joshua Vergara.

"It was a cow."

nara-deer



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HiSilicon’s Kirin 960 is ready to take on Samsung and Qualcomm

huawei-logo-mwc-2015-4

The other week, Huawei's HiSilicon lifted the lid on the details about its new high performance Kirin 960 mobile application processor, and it looks like it's squarely aimed at taking on Qualcomm and Samsung in the high-end SoC market this time around. So, let's take a closer look at the finer details that the Kirin 960 is bringing to the table, which goes above and beyond just improved performance.

To re-cover the basics, the Kirin 960 is an octa-core big.LITTLE CPU design, based on four high-performance ARM Cortex A73 cores clocked at 2.4GHz alongside four low-power Cortex A53 cores clocked at 1.8GHz. The chip is also the first SoC to make use of ARM's latest Mali-G71 GPU and is built on a 16nm manufacturing process, which will feel familiar from this year's Snapdragon 820 and Exynos 8890.

Huawei Kirin 960 spec breakdownSee also: Huawei introduces next-generation Kirin 960 chipset80

The core experience

  Kirin 960 Kirin 955 Kirin 935
CPU 4x Cortex-A73 @ 2.4GHz
4x Cortex A53 @ 1.8GHz
4x Cortex-A72 @ 2.5GHz
4x Cortex-A53 @ 1.8GHz
4x Cortex-A53 @ 2.2GHz
4x Cortex-A53 @ 1.5GHz
GPU Mali-G71 MP8
@900MHz
Mali-T880 MP4
@ 900MHz
Mali-T628 MP4
@ 680MHz
RAM 2x32bit LPDDR4 @ 1800MHz
28.8GB/s bandwidth
2x 32-bit LPDDR3
or LPDDR4 @ 1333MHz
21.3GB/s bandwidth
2x 32-bit LPDDR3 @ 800MHz
12.8GB/s bandwidth
Flash UFS 2.1 eMMC 5.1 / UFS 2.0 eMMC 4.51

The CPU aspect of the new chip is very similar to the last-gen Kirin 950/955, albeit with ARM's latest high performance Cortex-A73 replacing the A72s that ran at 2.3/2.5GHz. Despite making no real changes to the clock speeds of the 950 and 955, we're looking a notable 10- to 18-percent increase in "typical performance" between the A72 and A73, thanks to improvements in the core design. It seems that HiSilicon has found a CPU power envelope that it's happy with for ARM's high performance cores at 16nm.

The Cortex-A73 is also designed to sustain peak performance for longer, before thermal throttling pulls the core back. This means you'll be able to make the most of the chip's peak performance for longer, which is great for gaming and other CPU intensive tasks.

Cortex-A73-feature-imageLearn more: The Cortex-A73, a CPU that won't overheat – Gary explains16

Along with this CPU improvement, HiSilicon has spent time optimizing the memory system of its Kirin 960 to keep the CPU and GPU better fed. There's support for the latest LPDDR4 RAM at 1800MHz, which offers a 90 percent performance improvement of its last generation LPDDR3 implementation. There's also new support for UFS 2.1 flash memory, which is already being used by Samsung and Qualcomm instead of the eMMC standard. This improves read and write speeds substantially, and allows Huawei to improve its file encryption performance, a key metric with the introduction of Android 7.0 Nougat's Direct Boot mode, by 150 percent.

kirin-960-flash-mem-performance
kirin-960-ramperformance

Flash memory read speeds have seen a huge increase, according to Huawei's slides, which should result in much faster app opening times and faster loading for things like gallery images and videos. This, along with the boost to flash writing speeds, will be particularly handy for saving and playing back higher resolution content, such as 4K video.

On the GPU side, performance is up a staggering 180 percent over the previous generation Mali-T880 MP4 GPU used inside the last generation Kirin 950, thanks to the new Mali-G71 MP8 clocked at 900MHz. The G71 offers a 20 percent power saving and 40 percent better performance density than the Mali-T800 too, and HiSilicon has opted for eight cores this time around for a plentitude of graphical horsepower. HiSilicon's GPU performance has previously been a little way behind the market leaders, but this time around the Kirin 960 will be competing with the very best.

kirin-960-sustained-cpu-performance

By avoiding thermal issues and sustaining a high CPU frequency over time, the Kirin 955 already boasts superior GPU utilization and consistent frame rates. This will only improve the new Cortex-A73 CPU and more powerful Mali-G71 GPU.

Vulkan API & VR support

While we're on the subject of GPU's, the Kirin 960 boasts that it's the first processor to market with full support for the Vulkan API. Vulkan is promising big performance gains for mobile devices, thanks to superior multi-core support compared with OpenGL ES, and is likely to play a key part in many virtual reality titles too.

Huawei claims that using Vulkan can improve graphics performance by anything from 40 percent to 400 percent in mobile titles. Clearly, this is a wide margin and goes to show just how variable GPU and CPU workloads can be between applications. Combined with the better heat management of the Cortex-A73 CPU cores and the more energy efficient G71 GPU, the Kirin 960 should eek out some very nifty performance from titled built around the Vulkan API, as well as existing games and 3D or graphics applications, including your image gallery and general UI tasks.

The Mali-G71 is also built with virtual reality applications in mind. The G71 supports fast 120Hz display rates to avoid image smearing, 4x multi sample anti-aliasing for cleaner 3D edges, and 4K screen resolutions for extra high pixel density panels.

Huawei Kirin 960 Vulkan

With the nitty gritty out of the way, we can delve a little deeper into some of the additional features packed into the Kirin 960. HiSilicon has made sweeping changes to its image signal processing chain, audio support, and security tools, but we'll start with the new connectivity options.

Better LTE and custom CDMA

To better compete with chip-giant Qualcomm, Huawei has boosted the performance of its latest LTE modem and has also introduced support for CDMA technology, which usually requires a license for Qualcomm's patents. Instead, HiSilicon has created its own custom CDMA solution. This is important, as Huawei won't have to rely on Qualcomm modems or processors to launch its next handsets in markets that make use of CDMA networks, such as the Verizon and Sprint networks in the US.

HiSilicon its own CDMA solution, so it won't need Qualcomm licenses to sell phones on networks like Verizon.

The new LTE modem incorporated in the SoC introduces support for 4 component carriers (4CC) for LTE versus 3CC on its older chipsets, which essentially adds extra channels for data throughput when using LTE-Advanced carrier aggregation technologies. This also has the added benefit of adding 6dB of signal coverage over 3CC, meaning faster speeds while roaming away from cell towers. On today's fastest networks, this allows the modem to hit peak data speeds of 600Mbps.

In other words, the Kirin 960's LTE modem supports Category 12 download, with 4x carrier aggregation, 4×4 MIMO, 256QAM spatial stream modulation, and download speeds of up to 600Mbps. The SoC also boasts Category 13 upload capabilities, which tops out at 150Mbps.  This is right in the same category as the Snapdragon 820 and the Exynos 8890.

kirin-960-600mbps-modem

Improved dual camera ISP

Huawei debuted its dual-camera technology in the impressive P9 and this seems to be the core of the company's photography focus going forward. The Kirin 960 is being used to improve the photography performance and features in future devices that use dual cameras.

huawei-p9-feature-imageSee also: Huawei P9 review95

The design is still based around the its previous Monochrome sensor technology, but native support for an RGB and Monochrome depth processor has now been built directly into the SoC. As a result, the company is now also able to collect more depth mapping information than before, which allows for better refocusing effects and superior detail in low light situations. Taking and refocusing a photo should now also be faster, as depth information is processed inside the SoC rather than being sent out to an external ISP.

kirin-960-camera-refocus
kirin-640-4x-optical-zoom

During the presentation, HiSilicon made references to the 2x optical zoom capabilities of the new iPhone 7 Plus and announced that its down technology can go further with a 4x optical zoom. Interestingly, there's no mention of a telephoto lens for this zoom functionality. Instead, this all ties into the sensor's ability to detect multiple points of focus, as opposed to just one with SLR cameras and the iPhone 7 Plus. Not only does this allow for a wider range of bokeh refocusing options, but also enhances the range of zoom options available. However, this will depend on the actual optics used in the phone as well.

huawei-p9-35-aaSee also: Huawei P9 feature focus – Camera5

Audio, Security, and other extras

Another big new focus with the Kirin 960 is security. HiSilicon has gone so far as to implement its own inSE solution that extends the default Android and ARM TrustZone options, along the lines of Samsung's Knox. This three tiered security solution can be adapted depending on the use case requirements.

On the chip itself, the Kirin 960 features a larger 4MB pool of secure storage space, with 100x faster bandwidth and 50x faster RSA-1024 encryption with which to store security keys for fingerprints and the like. There's virtually zero chance of anyone being able to physically tamper with this part of the SoC, unlike if an external security IC is used. This is all quite important as Huawei is eyeing up a move into mobile payment systems. The company has been able to add encryption and decryption algorithms required by the finance sector.

Huawei boasts that the new chipset is certified by both UnionPay and the People's Bank of China's new digital requirements for mobile payments. In fact, the 960's security has been certified up to the CFNRA's highest level which is authorized for transactions up to a value of 1 million RMB. Huawei is looking beyond just mobile payments too, and envisions that its inSE system could be used for secure data ranging from PhotoID information to using your phone as a car key.

kirin-960-inse-security
kirin-960-hi6403-audio-codec

HiSilicon is also paying more attention to audio this time around. There's a new embedded DSP and its third generation Hi6403 codec on board, which boasts an improved noise floor of -117dB and a dynamic range of 117. This bests the iPhone 7's codec and the Qualcomm WCD9335 found in today's flagships. However, it's THD+N characteristic of -90dB doesn't quite match up to the competitors, but is an improvement on the previous Hi6402 IC. The Hi6403 supports overkill audio formats in the form of 32bit 192KHz PCM, as well as the DSD lossless format. It also consumes 17 to 33% less power than before.

The new Hi6403 audio codec bests the iPhone 7 and the Qualcomm WCD9335 for noise and dynamic range.

The Kirin 960 also employs new -10dB microphone background noise cancellation technology and there's HD Voice+ for calls over LTE, which offers twice the sample rate of of VoLTE for clearer sounding call quality. While we're on the topic of media, the processor packs in 4K30 HEVC/H.265 video decoding and encoding too.

Tying a lot of these extra sub systems together is the company's latest i6 co-processor. Just like the last generation i5, this lower power core can be used to handle GPS navigation, always-on display functions, and context aware applications like Now on Tap. There's a 40-percent typical decrease in power consumption between the i5 and i6, thereby extending battery life for low power tasks.

kirin-960-new-features-overview

An overview of all the new features (colored orange) inside the Kirin 960.

The Kirin 960 is undoubtedly HiSilicon's best SoC to date, thanks to a range of new high-end features, and it handily competes with the best SoCs on the market right now. Of course, the Kirin range is likely to remain reserved for the company's own smartphones and will most likely be appearing in the Huawei Mate 9 first.

Even so, it's going to be very interesting to see how well the processor stacks up against the upcoming Qualcomm Snapdragon 830 and Samsung Exynos 8895 flagships, although these chips are still several months away and will have the advantage of being produced on a smaller process. Still, there's always the option of a 10nm Kirin 960 refresh (Kirin 965?) at some point in the future too. Something tells me it's going to be a close run race next year.



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ASUS ZenWatch 3 goes on sale a bit earlier than scheduled for $229

asus-zenwatch-3

The ASUS ZenWatch 3, which was officially announced earlier this year, is now available to purchase online in the US for $229. The Android Wear smartwatch was originally scheduled to go on sale in early November. so this represents a bit of an early launch for the watch.

zenwatch 3See also: ASUS just announced the ZenWatch 38

At the moment, only the version of the watch with the dark brown leather band is on sale at B&H Photo, with shipments to begin sometime in mid-November. It's also technically on sale at the official ASUS web store, but at the moment it shows that it is temporarily out of stock. We will let you know when it becomes available directly from ASUS once again.

The ASUS ZenWatch 3 includes a 316L stainless steel body and a 1.39-inch circular AMOLED display with a resolution of 400×400. Inside, the smartwatch comes with the recently launched Qualcomm Snapdragon Wear 2100 processor, which has been optimized specifically for wearable devices. It also has 512MB of RAM, 4GB of internal storage a 340mAh battery.  ASUS says the ZenWatch 3 will come preinstalled with 50 watch faces, which should offer more than enough customization options.

Are you interested in buying the ASUS ZenWatch 3 now that it is finally on sale in the US?

Get it at B&H Photo


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