Meizu is expected to be one of the first companies to use the X25. Last year it was also the first to use MTK 6795T for its Meizu MX5 phone. In that case the “T” suffix stood for Turbo. This phone was 200 MHz faster than the standard Helio X10 “non T” version.

In 2016 is that MediaTek decided to use the new Helio X25 name because of a commercial arrangement. MediaTek didn’t mention any of the partners, but confirmed that the CPU and GPU will be faster. They did not mention specific clock speeds. Below is a diagram of the Helio X20, and we assume that the first “eXtreme performance” cluster will get a frequency boost, as well as the GPU.

The Helio X25 will not have any architectural changes, it is just a faster version of X20, just like MTK 6795T was faster version of MTK 6795. According to the company, the Helio X25 will be available in May.

This three cluster Helio X25 SoC has real potential and should be one of the most advanced mobile solutions when it hits the market.The first leaked scores of the Helio X20 suggest great performance, but the X25 should have even better scores. There should be a dozen design wins with Helio X20/ X25 and most of them are yet to be announced. There should be a few announcements for the Helio X25 soon, but at least we do know that now there will be a even faster version of three cluster processor.

Courtesy-Fud

According to Digitimes it fell to less than 30 million units in 2015 and the outfit suffering most was  AMD. The largest graphics card player Palit Microsystems, which has several brands including Palit and Galaxy, shipped 6.9-7.1 million graphics cards in 2015, down 10 per cent  on year. Asustek Computer shipped 4.5-4.7 million units in 2015, while Colorful shipped 3.9-4.1 million units, and is aiming to raise its shipments by 10 per cent  on year in 2016.

Micro-Star International (MSI) enjoyed healthy graphics card shipments at 3.45-3.55 million in 2015, up 15 per cent  on year, and EVGA, which has tight partnerships with Nvidia, also saw a significant shipment growth, while Gigabyte suffered from a slight drop on year. Sapphire and PowerColor suffered dramatic drops in shipments in 2015.

There are fears that several of the smaller GPU makers could be forced out of the market after AMD gets its act together with the arrival of Zen and Nvidia’s next-generation GPU architectures launch later in 2016.

Courtesy-Fud

Peter Lee, the corporate vice president of Microsoft Research said that Quantum computing is “stupendously exciting right now.”

Apparently it is Microsoft Research’s largest area of investment and Lee is pretty certain it is on the verge of some major scientific achievements.

“There’s just hope and optimism those scientific achievements will lead to practical outcomes. It’s hard to know when and where,” Lee said.

This is the first we have heard about Redmond’s quantum ambitions for a while. In 2014 the company revealed its “Station Q” group located on the University of California, Santa Barbara, campus, which has focused on quantum computing since its establishment a decade ago.

We sort of assumed that Microsoft would not get much work done on Quantum states because faced with a choice most cats would rather die in a box rather than listen to Steve Ballmer. But we guess with a more cat friendly CEO it is moving ahead.

Lee said that he has explained quantum computing research to Microsoft chief executive Satya Nadella by comparing it with speech processing. In that field, Microsoft researchers worked “so hard for a decade with no practical improvement,” he said. Then deep learning brought about considerable leaps forward in speech recognition and Microsoft was in on the ground floor.

“With quantum, we’ve made just gigantic advancements making semiconductor interfacing, allowing semiconductor materials to operate as though they were superconducting. What that means is the possibility of semiconductors that can operate at extremely high clock rates with very, very little or no heat dissipation. It’s just really spectacular.”

Courtesy-Fud

While there have been cut-down Linux implementations before the increase in numbers of smart, connected devices has made something a little more specialized more important.

Zephyr is all about minimizing the power, space, and cost budgets of IoT hardware.
For example a cut down Linux needs 200KB of RAM and 1MB of flash, IoT end points, which will often be controlled by tiny microcontrollers.

Zephyr has a small footpoint “microkernel” and an even tinier “nanokernel.” All this enables it to be CPU architecture independent, run on as little as 10KB while being scalable.

It can still support a broad range of wireless and wired technologies and of course is entirely open saucy released under the Apache v2.0 License.

It works on Bluetooth, Bluetooth Low Energy, and IEEE 802.15.4 (6LoWPAN) at the moment and supports x86, ARM, and ARC architectures.

Courtesy-Fud

We ain’t surprised, but it is quite a shocking and naked fact when you consider it. The naming and resulting shaming happens in the HPE Cyber Risk Report 2016, which HPE said “identifies the top security threats plaguing enterprises”.

Enterprises, it seems, have myriad problems, of which Microsoft is just one.

“In 2015, we saw attackers infiltrate networks at an alarming rate, leading to some of the largest data breaches to date, but now is not the time to take the foot off the gas and put the enterprise on lockdown,” said Sue Barsamian, senior vice president and general manager for security products at HPE.

“We must learn from these incidents, understand and monitor the risk environment, and build security into the fabric of the organisation to better mitigate known and unknown threats, which will enable companies to fearlessly innovate and accelerate business growth.”

Microsoft earned its place in the enterprise nightmare probably because of its ubiquity. Applications, malware and vulnerabilities are a real problem, and it is Windows that provides the platform for this havoc.

“Software vulnerability exploitation continues to be a primary vector for attack, with mobile exploits gaining traction. Similar to 2014, the top 10 vulnerabilities exploited in 2015 were more than one-year-old, with 68 percent being three years old or more,” explained the report.

“In 2015, Microsoft Windows represented the most targeted software platform, with 42 percent of the top 20 discovered exploits directed at Microsoft platforms and applications.”

It is not all bad news for Redmond, as the Google-operated Android is also put forward as a professional pain in the butt. So is iOS, before Apple users get any ideas.

“Malware has evolved from being simply disruptive to a revenue-generating activity for attackers. While the overall number of newly discovered malware samples declined 3.6 percent year over year, the attack targets shifted notably in line with evolving enterprise trends and focused heavily on monetisation,” added the firm.

“As the number of connected mobile devices expands, malware is diversifying to target the most popular mobile operating platforms. The number of Android threats, malware and potentially unwanted applications have grown to more than 10,000 new threats discovered daily, reaching a total year-over-year increase of 153 percent.

“Apple iOS represented the greatest growth rate with a malware sample increase of more than 230 percent.”

Courtesy-TheInq

Facebook, for example, built a data center in Lulea in Sweden because the icy cold temperatures there would help cut the energy required for cooling. A proposed Facebook data center in Clonee, Ireland, will rely heavily on locally available wind energy. Google’s data center in Hamina in Finland uses sea water from the Bay of Finland for cooling.

Now, Microsoft is looking at locating data centers under the sea.

The company is testing underwater data centers with an eye to reducing data latency for the many users who live close to the sea and also to enable rapid deployment of a data center.

Microsoft, which has designed, built, and deployed its own subsea data center in the ocean, in the period of about a year, started working on the project in late 2014, a year after Microsoft employee, Sean James, who served on a U.S. Navy submarine, submitted a paper on the concept.

A prototype vessel, named the Leona Philpot after an Xbox game character, operated on the seafloor about 1 kilometer from the Pacific coast of the U.S. from August to November 2015, according to a Microsoft page on the project.

The subsea data center experiment, called Project Natick after a town in Massachusetts, is in the research stage and Microsoft warns it is “still early days” to evaluate whether the concept could be adopted by the company and other cloud service providers.

“Project Natick reflects Microsoft’s ongoing quest for cloud datacenter solutions that offer rapid provisioning, lower costs, high responsiveness, and are more environmentally sustainable,” the company said.

Using undersea data centers helps because they can serve the 50 percent of people who live within 200 kilometers from the ocean. Microsoft said in an FAQ that deployment in deepwater offers “ready access to cooling, renewable power sources, and a controlled environment.” Moreover, a data center can be deployed from start to finish in 90 days.

Courtesy- http://www.thegurureview.net/aroundnet-category/microsoft-goes-deep-with-underwater-data-center.html

According to the Gizchina website, the company the three new SoCs carry the catchy titles of MT6739, MT6750 and MT6750T. .

The MT6739 will probably replace the MT6735. Both have quad A53 cores but it will mean that the MT6739 will get a Cat 6 upgrade from Cat 4. The MT6739 supports speeds of up to 1.5GHz, 512 KB L2 cache, 1280×720 at 60fps resolution, and video decode to 1080p 30fps with H.264 and 13 megapixel camera. This means it is an entry level SoC for phones that might fit into the $100 price range.

The MT6750 and MT6750T look like twins, only the T version supports full HD 1920×1080 displays. The MT6750 has eight cores, four A53 clocked at 1.5Ghz and four A53 clocked at 1.0GHz and is manufactured on TSMC’s new 28nm High Performance Mobile Computing manufacturing mode. This is the same manufacturing process MediaTek is using for the Helio P10 SoC. The new process allows lower leakage and better overall transistor performance at lower voltage.

The MT6750 SoC supports single channel LPDDR3 666MHz and eMCP up to 4GB. The SoC supports eMMC 5.1, 16 megapixel camera, 1080p 30 fps with both H.264 and H.265 decoding. It comes with an upgraded ARM Mali T860 MP2 GPU with 350 MHz and display support of 1280×720 HD720 ready with 60 FPS. This means the biggest upgrade is the Cat 6 upgrade and it makes sense – most of European and American networks now are demanding a Cat 6 or higher modem that supports carrier aggregation.

This new SOc looks like a slowed down version of Helios P10 and should be popular for entry level Android phones.

Courtesy-Fud

It is starting to look sales teams for the pair are each trying to show that they can use the technology to reduce the most electricity consumption and production costs.

In its yearly result for 2015, TSMC made an announcement that it is planning to enter mass-production system of chips produced by 16-nano FinFET Compact (FFC) process sometime during 1st quarter of this year. TSMC had finished developing 16-nano FFC process at the end of last year. During the announcement TSMC talked up the fact that its 16-nano FFC process focuses on reducing production cost more than before and implementing low electricity.

TSMC is apparently ready for mass-production of 16-nano FFC process sometime during 1st half of this year and secured Huawei’s affiliate called HiSilicon as its first customer.

HiSilicon’s Kirin 950 that is used for Huawei’s premium Smartphone called Mate 8 is produced by TSMC’s 16-nano FF process. Its A9 Chip, which is used for Apple’s iPhone 6S series, is mass-produced using the 16-nano FinFET Plus (FF+) process that was announced in early 2015. By adding FFC process, TSMC now has three 16-nano processors in action.

Samsung is not far behind it has mass-produced Gen.2 14-nano FinFET using a process called LPP (Low Power Plus). This has 15 per cent lower electricity consumption compared to Gen.1 14-nano process called LPE (Low Power Early).

Samsung Electronics’ 14-nano LPP process was seen in the Exynos 8 OCTA series that is used for Galaxy S7 and Qualcomm’s Snapdragon 820. But Samsung Electronics is also preparing for Gen.3 14-nano FinFET process.

Vice-President Bae Young-chang of Samsung’s LSI Business Department’s Strategy Marketing Team said it will use a process similar to the Gen.2 14-nano process.

Both Samsung and TSMC might have a few problems. It is not clear what the yields of these processes are and this might increase the production costs.

Even if Samsung Electronics and TSMC finish developing 10-nano process at the end of this year and enter mass-production system next year, but they will also have to upgrade their current 14 and 16-nano processes to make them more economic.

Even if 10-nano process is commercialized, there still will be many fabless businesses that will use 14 and 16-nano processes because they are cheaper. While we might see a few flagship phones using the higher priced chips, it might be that we will not see 10nm in the majority of phones for years.

Courtesy-Fud

Microsoft announced that it will be permanently reducing the prices for its Dv2 compute instances by up to 17 percent next month, depending on the type of instance and what it’s being used for. Users will see the greatest savings if they’re running higher performance Linux instances — up to 17 percent lower prices than they’ve been paying previously. Windows instance discounts top out at a 13 percent reduction compared to current prices.

Right now, the exact details of the discount are a little bit vague, but Microsoft says that it will publish full pricing details in February when they go into effect. Dv2 instances are designed for applications that require more compute power and temporary disk performance than Microsoft’s A series instances.

They’re the successor to Azure’s D-series VMs, and come with processors that are 35 percent faster than their predecessors. Greater speed also corresponds to a higher price, but these discounts will make Dv2-series instances more price competitive with their predecessors. That’s good news for price-conscious users, who may be more inclined to reach for the higher-performance instances now that they’ll be cheaper.

The price changes come after Amazon earlier this week introduced scheduled compute instances, which let users pick out a particular time for their workloads to run on a regular basis, and get discounts based on when they decide to use the system. It’s a system that’s designed to help businesses that need computing power for routine tasks at non-peak times get a discount.

Microsoft’s announcement builds on the company’s longstanding history of reducing prices for Azure in keeping with Amazon’s price cuts in order to remain competitive.

Source-http://www.thegurureview.net/computing-category/microsoft-to-cut-azure-pricing.html

The Android fork, which adds conventional desktop features such as a taskbar, start menu and support for multiple windows, has been a huge hit, overshadowing the implementation of Android revealed in Google’s recent high-end tablet the Pixel C.

The initial build, as ever, is designed to fish for bugs and aid developers. A beta will follow in the coming weeks. The Alpha doesn’t contain Google Mobile Services apps such as the Play store and Gmail, but the finished version will. In the meantime, users can sideload the gApps package or go to the Amazon Web Store.

There may also be problems with some video codecs, but we’re told this is a licensing issue which will be resolved in the final version too. In the meantime, the first release is perfectly useable.

Compatibility with most Android apps is instant, but the user community can ‘upvote’ their favourites on the Remix OS site to flag what’s working best in each category.

The company has already released a small desktop machine of its own, called the Remix Mini, the world’s first fully functioning Android PC, priced at just $70 after a successful Kickstarter campaign. It has also developed a 2-in-1 ultrabook, the Remix Ultra, and has licensed Remix OS to several Far East tablet manufacturers.

In this new move, the company has teamed up with Android-x86, a group that has been working on an executable version of Android for computers since 2009, to launch a Remix OS installer which will allow existing hardware to become Remix OS powered, or as a partition on a dual-boot machine.

A third option is to store the OS on a USB stick, meaning that you can make any computer your own. This technique has already been popular through the Keepod programme which offers Android on a stick to countries without access to high-speed computers.

The advantages of Remix OS to the developing world are significant. Bench tests have shown that Remix OS works significantly faster than Windows, which will potentially breathe new life into older machines and make modern machines run at previously impossible speeds.

Remix OS was designed by three ex-Google engineers and includes access to the full Google Apps suite and the Google Play store.

David Ko, co-founder of Jide Technology, said: “Today’s public release of Remix OS, based on Android-x86, is something that we’ve been working towards since we founded Jide Technology in 2014.

“All of us are driven by the goal of making computing a more accessible experience, and this free, public release allows us to do this. We believe Remix OS is the natural evolution of Android and we’re proud to be at the forefront of this change.”

The public Alpha will be available to download from Jide and android-x86 from 12 January, and a beta update is expected swiftly afterwards. The INQUIRER has been using a Remix Mini for over a month now, and a full review of the operating system is coming soon.

Courtesy-TheInq