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GPU Shipments Appear To Be On The Rise

December 1, 2015 by  
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Beancounters at JPR have been adding up the numbers and dividing by their shoe size and worked out that GPU shipments are up for both Nvidia and AMD.

Over the last few months both have been busy with new releases. Nvidia has its GeForce GTX 950 and GTX 980 Ti, while AMD put its first HBM-powered cards in the Radeon R9 Fury X, Fury and the super-small R9 Nano into the shops.

According to JPR, overall GPU shipments are up quarter-over-quarter – with AMD’s overall GPU shipments up 15.8 per cent. But before AMD fanboys get all excited by a surprise return to form from AMD, JPR said that that NVIDIA “had an exceptionally strong quarter”. Nvidia saw an uptick of 21.3 per cent.

The PC market as a whole increased by 7.5 per cent quarter-over-quarter but decreased 9 per cent year-over-year. Nivida’s discrete GPU shipments were up 26.3 per cent according to JPR, while AMD’s discrete GPUs spiked by 33 per cent.

AMD’s mobile GPU shipments for notebooks increased by 17 per cent, while NVIDIA had 14 per cent.

Courtesy-http://www.thegurureview.net/computing-category/gpu-shipments-appear-to-be-on-the-rise.html

Will AMD’s Newest SoC Save The Company?

November 3, 2015 by  
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The troubled chipmaker AMD thinks it is onto a winner with its new AMD Embedded R-Series SOC processors.

Designed for demanding embedded needs, the processors incorporate the newest AMD 64-bit x86 CPU core (“Excavator”), plus third-generation Graphics Core Next GPU architecture, and better power management for reduced energy consumption.

AMD tells us that combined, these chips provide industry-leading graphics performance and key embedded features for next-generation designs. The SOC architecture enables simplified, small form factor board and system designs from AMD customers and a number of third party development platform providers.

What AMD brings to the party is its graphics and multimedia performance, including capability for hardware-accelerated decode of 4K video playback and support for the latest DDR4 memory.
Jim McGregor, principal analyst, TIRIAS Research said that AMDs push into x86 embedded platforms is paying off with an increasing number of customers and applications.

“There is a need for immersive graphics, high-quality visualization, and parallel computing in an increasing number of embedded applications. Across these fronts, the AMD Embedded R-Series SOC is a very compelling solution.”

Scott Aylor, corporate vice president and general manager, AMD Embedded Solutions said that his outfit’s AMD Embedded R-Series SOC is a strong match for these needs in a variety of industries including digital signage, retail signage, medical imaging, electronic gaming machines, media storage, and communications and networking.

“The platform offers a strong value proposition for this next generation of high-performance, low-power embedded designs.”

The new AMD Embedded R-Series SOCs offer 22 percent improved GPU performance when compared to the 2nd Generation AMD Embedded R-Series APU2 and a 58 percent advantage against the Intel Broadwell Core i7 when running graphics-intensive benchmarks.

AMD released some of the specs for its integrated AMD Radeon graphics including:

Up to eight compute units4 and two rendering blocks

GPU clock speeds up to 800MHz resulting in 819 GFLOPS

•DirectX 12 support

Fully HSA Enabled

The AMD Embedded R-Series SOC was architected with embedded customers in mind and includes features such as industrial temperature support, dual-channel DDR3 or DDR4 support with ECC (Error Correction Code), Secure Boot, and a broad range of processor options.

It has a configurable thermal design power (cTDP) allows designers to adjust the TDPs from 12W to 35W in 1W increments for greater flexibility.

The SOC also has a 35 percent reduced footprint when compared to the 2nd Generation AMD Embedded R-Series APU, making it an excellent choice for small form factor applications.

AMD said that the range is the first embedded processor with dual-channel 64-bit DDR4 or DDR3 with Error-Correction Code (ECC), with speeds up to DDR4-2400 and DDR3-2133, and support for 1.2V DDR4 and 1.5V/1.35V DDR3.

Its dedicated AMD Secure Processor supports secure boot with AMD Hardware Validated Boot (HVB) and initiates trusted boot environment before starting x86 cores
It has a high-performance Integrated FCH featuring PCIe Gen3 USB3.0, SATA3, SD, GPIO, SPI, I2S, I2C, and UART

The AMD Embedded R-Series SOC provides industry-leading ten-year longevity of supply. The processors support Microsoft Windows 7, Windows Embedded 7 and 8 Standard, Windows 8.1, Windows 10, and AMD’s all-open Linux driver including Mentor Embedded Linux from Mentor Graphics and their Sourcery CodeBench IDE development tools.

It will be interesting to see if AMD can make up the ground it has lost on PCs and higher ticket items. Most of the company still appears to be in a holding pattern until Zen arrives.

Courtesy-http://www.thegurureview.net/computing-category/will-amds-newest-soc-save-the-company.html

ARM’s Mali GPU Going To Wearables

November 2, 2015 by  
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ARM has announced the Mali-470 GPU targeted at Internet of Things (IoT) and wearable devices.

The new Mali-470 GPU has half the power consumption and two times the energy efficiency of the Mali-400, and is designed for next-generation wearables and IoT devices such as industrial control panels and healthcare monitors that rely on low-cost and low-power chips.

The Mali-470 supports OpenGL ES 2.0, used by Android and Android Wear, hinting that the GPU could also find its way into low-cost smartphones. If not, ARM promises that the chip will bring smartphone-quality visuals to wearable and IoT devices, supporting screen resolutions of up to 640×640 on single-core devices, and higher resolutions for multi-core configurations.

ARM envisions the new GPU paired with its efficient Cortex-A7 or A53 CPU designs for a low-power SoC.

“ARM scrutinises every milliwatt across the entire SoC to enable OEMs to optimize energy efficiency and open up new opportunities,” said Mark Dickinson, vice president and general manager of ARM’s multimedia processing group.

“Tuning efficiency is particularly relevant for devices requiring sophisticated graphics on a low power budget such as wearables, entry-level smartphones and IoT devices. The Mali-470 has been designed to meet this demand by enabling a highly capable user interface while being extremely energy efficient.”

ARM expects the first SoCs using the GPU be ready by the end of 2016, meaning that the chip will start showing up in devices the following year.

The launch of the Mali-470 GPU comes just hours after ARM announced plans to pick up the product portfolio and other business assets of Carbon Design Systems, a supplier of cycle-accurate virtual prototyping solutions.

The deal will see Carbon’s staff transfer to ARM, where the chip firm will make use of the Massachusetts-based outfit’s expertise in virtual prototypes. This will enable ARM to iron out any bugs and make improvements to chips before they move to foundries for production.

ARM also said that Carbon will help the firm enhance its capability in SoC architectural exploration, system analysis and software bring-up.

Courtesy-TheInq

Is AMD Losing Top Scientist To nVidia?

October 27, 2015 by  
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AMD is reeling after the high profile exit of one its top CPU brains Phil to rival Nvidia.

The outfit has been going through hell lately. Last month AMD ace CPU architect Jim Keller stepped away from the company after completing his work on Zen.

Rogers was one of AMD’s high-ranking technology and engineering corporate fellows, and been responsible for helping to develop the software ecosystem behind AMD’s heterogeneous computing products and the Heterogeneous System Architecture.

He was a public figure for AMD and active on the software development and evangelism side, frequently presenting the latest HSA tech and announcements for AMD at keynotes and conferences.

While he is not the only person working on the software side of HSA at AMD, Rogers’ role in its development is important. Rogers was a major contributor to the HSA Foundation, helping to initially found it in 2012. He served as the Foundation’s president until he left AMD.

It seems his defection was kept secret, and took place sometime this quarter and did not manage to leak.

According to his LinkedIn profile Phil Rogers is now Nvidia’s “Chief Software Architect – Compute Server” which is similar to what he was doing over at AMD. Nvidia is not a member of the HSA Foundation, but they are currently gearing up for the launch of the Pascal GPU family, which has some features that overlap well with Phil Rogers’ expertise.

Pascal’s NVLink CPU & GPU interconnect would allow tightly coupled heterogonous computing similar to what AMD has been working on. It makes a fair bit of sense for Nvidia to bring over a heterogeneous compute specialist makes a great deal of sense.

Rogers’ departure from AMD will have to be mentioned on the earnings call on the 15th. AMD’s Gregory Stoner will probably replace him. Stoner is AMD’s current Senior Director of Compute Solutions Technology and long-time Vice President of the HSA Foundation.

Source-http://www.thegurureview.net/computing-category/is-amd-losing-top-scientist-to-nvidia.html

MediaTek Building Ecosystem To Power IoT

October 12, 2015 by  
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MediaTek is quietly building an ecosystem to drive IoT strategy to push its System on Chip shipments across multiple devices.

The fabless chipmaker is signing partnerships with Amazon, Tinitell, Apple, and People Power.

MediaTek is starting to come out of the shadows in the West with its SoC designs. It sees the IoT as a way to push more of its chips.

It has put in a tender to buy power management outfit Richtek Technology to expand its leadership in Power Management Integrated Circuits (PMIC) to strengthen its overall capabilities for the IoT business model. The deal is expected to close in Q2 2016.

It has provided funding to People Power, a user engagement company providing apps, cloud and mobile services for IoT to further accelerate its penetration in the IoT market in both the U.S. and China, develop new IoT products based on its Fabrux and Influx software architecture

Release of two software development kits (SDKs) for Apple HomeKit, the framework in iOS 8 for communicating with and controlling connected accessories in a user’s home.

This is on top of its partnership with Amazon for the latest devices – Amazon Fire TV is powered by MediaTek’s MT8173, a 64-bit quad-core processor and the world’s first multimedia SoC with ARM’s Cortex-A72 cores; Fire HD 8 and Fire HD 10 tablets powered by MT8135, an up to 1.5 GHz quad-core processor, resulting in a fast and fluid user interface, and smooth running HD videos and high frame-rate games.

Chief Marketing Officer, Johan Lodenius said the company’s cunning plan was to innvovate widely available technology that provides integrated connectivity, while investing in and nurturing developers and the maker community to deliver practical yet innovative solutions.

Source-http://www.thegurureview.net/computing-category/mediatek-building-ecosystem-to-power-iot.html

AMD Increases FM2+ Lineup

September 22, 2015 by  
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AMD will expand its socket FM2+ chip lineup with three new parts – the A10-7890K and A8-7690K APUs, and the Athlon X4 880K CPU.

The new parts showed up on the compatibility list of socket FM2+ motherboards by BIOSTAR and it is not clear when they will be in the shops.

The architecture mentioned is “Kaveri,” but the silicon could be “Godavari” which is a Kaveri refresh.

The top of the range will be the A10-7890K, which has CPU clock speeds of 4.10 GHz out of the box. We do not know what the TurboCore frequency will be, but the current A10-7870K offers 3.90 GHz with 4.10 GHz TurboCore. The A8-7690K has a CPU clocks of 3.70 GHz. We are not sure what the iGPU clock speeds of the two chips.

The Athlon X4 880K is the most interesting. It has 4.00 GHz CPU clocks. The Athlon X4 FM2+ series lack integrated graphics that means that they are good for those who will buy discrete GPUs, on the FM2+ platform.

All three chips offer unlocked base-clock multipliers, enabling CPU overclocking.

Source-http://www.thegurureview.net/computing-category/amd-increases-fm2-lineup.html

Both AMD And nVidia Preparing For 14nm

September 4, 2015 by  
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AMD and Nvidia both appear to be certain to get their “14 nm” out next year.

According to TweakTown Nvidia is apparently dotting the “I” and working out where to put in the semi-colons for its Pascal GPU using TSMC’s 16nm FinFet node. AMD rumored has been wining and dining its old chums at GlobalFoundries to use its 14nm process for its Greenland GPU.

Although these sound like different technologies the “14nm and 16nm”  is difference how you measure a transistor. The outcome of both 14 and 16 should be a fairly same sized transistor with similar power features. TSMC calls its process 16nm FinFet, while Samsung and GloFo insist on calling it 14nm FinFet.

The dark satanic rumor mill suggests that the Greenland GPU, which has new Arctic Islands family micro-architecture, will have HBM2 memory. There will be up to 32GB of memory available for enthusiast and professional users. Consumer-oriented cards will have eight to 16GB of HBM2 memory. It will also have a new ISA (instruction set architecture).

It makes sense, AMD moved to HBM with its Fury line this year. Nvidia is expected to follow suit in 2016 with cards offering up to 32GB HBM2 as well.

Both Nvidia and AMD are drawn to FinFET which offers 90 percent more density than 28nm. Both will boost the transistors on offer with their next-generation GPUs, with 17 to 18 billion transistors currently being rumored.

Source- http://www.thegurureview.net/computing-category/are-both-amd-and-nvidia-readying-to-release-a-14nm-gpu.html

AMD’s Quantum Has Intel Inside

July 1, 2015 by  
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AMD’s Project Quantum PC system, with graphics powered by two of the new Fiji GPUs may have got the pundits moist but it has been discovered that the beast has Intel inside

KitGuru confirmed that the powerful tiny system, as shown at AMD’s own event, was based upon an Asrock Z97E-ITX/ac motherboard with an Intel Core i7-4790K ‘Devil’s Canyon’ processor.

Now AMD has made a statement to explain why it chose to employ a CPU from one of its competitor in what is a flagship pioneering gaming PC.

It told Tom’s Hardware that users wanted the Devil’s Canyon chip in the Project Quantum machine.

Customers “want to pick and choose the balance of components that they want,” and the machine shown off at the E3  was considered to be the height of tech sexiness right now.

AMD said Quantum PCs will feature both AMD and Intel CPUs to address the entire market, but did you see that nice Radeon Fury… think about that right now.

IT is going to be ages before we see the first Project Quantum PCs will be released and the CPU options might change. We would have thought that AMD might want to put its FinFET process ZEN CPUs in Project Quantum with up to 16 cores and 32 threads. We will not see that until next year.

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Is Samsung The King Of LTE?

June 24, 2015 by  
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Samsung Electronics has told the world that owns the largest number of patent rights essential for long-term evolution (LTE) technology in the world.

Writing in its official blog “Samsung Tomorrow” that it has more than 3,600 standard essential patents (SEP) for the LTE and LTE-Advanced (LTE-A) technology. That is 17 percent of all LTE-related SEPs.

We guess this means that if someone buys an LTE phone more than 17 per cent of the money which goes to buy patents should end up in Samsung’s bank account.

Samsung Electronics Digital Media & Communication Laboratory’s intellectual property application team head Lee Heung-mo said Samsung Electronics has established a solid foothold as the global leader and the first mover in the fourth-generation mobile telecom market.

“This also means that the company has become able to provide more convenience to customers by developing the latest technologies.”

The Taiwanese patent office conducted market research for the nation’s state-run National Applied Research Laboratory based on about 6,000 patent rights listed at the Patent and Trademark Office in the United States during the last two years.

LG Electronics and Qualcomm followed Samsung Electronics in second place with 14 percent of SEPs, each. Ericsson, Panasonic, Nokia and NTT DoCoMo hold the third spot with 5 percent, each.

Pantech, the nation’s third-largest handset maker which currently faces bankruptcy, held only one percent, while Korea’s state-run Electronics and Telecommunications Research Institute owned less than 1 percent, the report showed.

During the patent dispute with Apple, the U.S. International Trade Commission said Apple had infringed on Samsung Electronics’ SEPs though they had to be shared under a “fair, reasonable and non-discriminatory” principle.

Samsung Electronics said it has pushed for securing the SEPs in this sector during the last 18 years and has competed with global telecom giants including Qualcomm, Nokia and Ericsson as a relative latecomer. It said securing leadership in SEPs may change the crisis of facing patent disputes to diversifying income sources.

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MediaTek Debuts Contactless Heart Rate Monitor

June 17, 2015 by  
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While MediaTek might be known for its multi-core smartphone processors, the firm was very keen to show off its more adventurous side at Computex 2015.

With a booth almost entirely dedicated to the latest and greatest from its new Labs division, which aims to bring the latest innovations from developers to market, MediaTek offered something a little more unexpected compared to previous years.

Launched in autumn last year, MediaTek Labs is a worldwide initiative to help developers of any background or skill level to create and market wearable and Internet of Things (IoT) devices.

With the firm’s LinkIt Development Platform, based on the MediaTek Aster (MT2502) chipset, sitting at its core, the Labs programme provides developers, makers and service providers with both software and hardware development kits, technical documentation and business support.

Here’s a few of our favourite innovations showed off at Computex, based on either the LinkIt One platform, or the firm’s fresh Helio P10 smartphone family of SoCs.

Heart rate monitoring smartphone camera
This “contactless heartrate monitoring” technology is powered by the firm’s Visual Processing Application in its latest P10 smartphone SoC.

It makes use of a smartphone’s video camera to take a heart rate reading via the front-facing camera by stripping down the layers of the image taken by the camera in real-time to detect the pulse in a user’s temple.

We were rather dubious about how well this might work, so gave it a go. While it took a good few seconds to match up, you can see from the photo that it is almost as accurate as the portable ECG monitoring device we had clipped on our finger. Impressive stuff.

Wine brewer
Winning first prize in the ITRI Mobilehero competition in Taiwan last year, this nifty IoT wine brewing device was developed by a local start-up called Alchema.

It consists of five sensors thatmonitor the alcohol content and the brewing environment. The results we tasted were, shall we say, interesting, if a little on the sharp side.

Alchema looking to raise more funds on Kickstarter before the end of the year.

Another LinkIt-powered device MediaTek showed off at Computex was a wearable aimed for the elderly. Using Bluetooth and accelerometer sensors, the wristband tracker detects the users’ wrist motions and raises an alarm, alerting those that are linked to the watch via a smartphone app if their elderly family member, loved one or friend’s device has detected a sudden movement that could resemble a fall or accident.

Sitting at the more mature end of the LinkIt developer platform spectrum, but still less than a year old, is an electric-scooter rental company called Skuro Moto. We spoke to its chief executive Frank Chen, who is running the company at the tender age of 24 after developing the idea while at university.

Skuro works with electric-vehicle maker Ahamani EV Technology to provide a rental service at Yuan Ze University in Taiwan. The bikes reduce costs for riders by about 30 percent thanks to a monitoring system enabled by the LinkIt chip that lets riders see their power usage. They can also be started by a swipe of a student identity card, to save the trouble of lost keys.

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