Helio Finally Launches X27
MediaTek has announced two more Helio X20 series products – a Helio X27 and an X23 and as you can figure out from the names; Helio X27 is faster than the X25 while X23 is a bit slower.
Helio X25 was the fastest deca-core 20nm SoC from MediaTek with three cluster designs and this SoC ended up in quite a few prominent China higher end phones including a few Meizu devices. But it looks like customers wanted a bit faster camera, SoC and GPU performance for its late 2016 early 2017 phones, the ones that will launch before the Helio X30 comes to market.
Jeffrey Ju, Executive Vice President and Co-Chief Operating Officer at MediaTek said: “The MediaTek Helio platform fulfills the diverse needs of device makers. Based on the success of MediaTek Helio X20 and X25, we are introducing the upgraded MediaTek Helio X23 and X27. The new SoCs support premium dual camera photography and provide best in-class performance and power consumption,”
The Helio X25 has two Cortex A73 cores clocked at 2.5 GHz, four Cortex A53 clocked at 2.00 GHz and last four Cortex A53 clocked at 1.55GHz. The Mali GT880 graphics is clocked at 850 MHz.
The Helio X20 has two Cortex A73 cores clocked at 2.1 GHz, four Cortex A53 clocked at 1.85 GHz and last four Cortex A53 clocked at 1.4GHz. The Mali GT880 graphics is clocked at 780 MHz.
The newcomer, Helio X27, has two Cortex A73 cores clocked at 2.6 GHz, four Cortex A53 clocked at 2.00 GHz and the last four Cortex A53 clocked at 1.6 GHz. The Mali GT880 graphics is clocked at 875 MHz. The rest of the specification is identical to the Helio X25.
The Helio X23 has two Cortex A73 cores clocked at 2.3 GHz, four Cortex A53 clocked at 1.85 GHz and the last four Cortex A53 clocked at 1.4GHz. The Mali GT880 graphics is clocked at 780 MHz. As you can see, this is just a slightly faster version of Helio X20 and it sits just below Helio X25 with its specs.
Thanks to MediaTek-engineered advancements in the CPU/GPU heterogeneous computing scheduling algorithm, both products deliver more than a 20 percent overall processing improvement and significant increases in web browsing and application launching speeds. This definitely sounds promising but you should bear in mind that MediaTek had enough time to optimize these designs of the new and updated SoCs.
Phones based on the Helio X27 and X23 will be available soon.
Courtesy-Fud
Will Intel’s Kaby Lake Outshine AMD’s ZEN?
Comments Off on Will Intel’s Kaby Lake Outshine AMD’s ZEN?
A Wall Street analyst, with no thought to his personal safety, has dared to question what AMD fans have been telling us for ages – Zen will bring about peace on earth, cure cancer and above all give Intel a good kicking.
However, Christopher Danely with Citigroup has bravely claimed that with its “Kaby Lake” family of processors, Intel remains a “step-function ahead of AMD Zen when Zen chips are released in Q416.”
He also doubts the benchmark stats that AMD presented to promote Zen’s capabilities relative to Intel’s microprocessors claiming that the AMD controlled benchmark compared an engineering sample of a Zen processor that has not been released yet against a three-month old Intel processor, with both chips clocked at 3.0 Ghz.
“We note the maximum speed for the Intel chip is 3.2 GHz. The result showed AMD completing the benchmark 2 per cent faster than Intel, implying higher CPU efficiency on a “clock for clock” basis. AMD kept both 8 core chips at the same clock speed of 3.0 Ghz, below the native clock speed of the Intel chip. The benchmark result showed the Zen Summit Ridge processor completing the Blender rendering benchmark in 48.07 seconds, 2 per cent ahead of Intel Broadwell-E chip’s time of 49.06 seconds. We note this is only one benchmark using a custom workload performed at an AMD event under controlled conditions, and therefore cannot be verified by third parties and does not represent expected results under all workloads, Danely said.
Instead he thinks that Chipzilla will benefit from its process technology lead while AMD’s manufacturing partner, Global Foundries, which has a “spotty track record.”
“After several of delays and eventually failing to develop 20nm and 14nm on its own, GlobalFoundries entered into a partnership agreement with Samsung in April 2014 to adopt Samsung’s 14nm FinFET process. Despite using the same tools, recipes, and materials as Samsung’s 14nm process, products built on GlobalFoundries’ 14nm did not appear until earlier this year, roughly a year after Samsung released its Exynos 7420 SoC built on its 14nm process,” Danely pointed out.
Since the partnership agreement with Samsung does not include 10nm or lower nodes, we think the technology gap between AMD and Intel will widen again once Intel migrates to 10nm next year.
Meanwhile Intel released its new Kaby Lake chips on an improved 14+nm process this month, featuring a 15 per cent performance improvement over its Skylake chips. Kaby Lake chips deliver up to 12 per cent faster productivity performance and 19 per cent faster web performance over comparable Skylake chips
“We expect independent benchmarks to show Intel’ performance is a step function ahead of AMD Zen when Zen chips are released in 4Q16,” he said.
Below you will find lots of rantings from Intel and AMD fanboys and we expect the language to be colourful. Those of a sensitive disposition might want to look away now.
Courtesy-Fud
Is TSMC Experiencing Unusual Growth?
Comments Off on Is TSMC Experiencing Unusual Growth?
TSMC s expected to see a 10 percent revenue increase in 2016.
Company co-CEO Mark Liu said that while the fourth quarter could be a bit rough as customers start their inventory adjustments, TSMC’s sales for the quarter will still outperform those for the third quarter.
Talking to Digitimes Lui said that smartphone demand was affected negatively by macroeconomic factors in the first half of 2016. But apparently smartphone chip clients are ordering again in the second half of the year.
TSMC previously estimated its 2016 revenues would grow 5-10 per cent. The foundry expects to meet the high end of the growth guidance, Liu said. In his speech at the CEO Forum of SEMICON Taiwan 2016. Liu claimed that the foundry industry growth is being driven by the markets for smartphones, HPC, automotive and IoT.
Apps like Pokemon G will require more silicon chips used in mobile devices that will be another growth driver in the future, Liu said.
Courtesy-Fud
nVidia Updates Its Grid Platform
Nvidia has updated its Grid software platform with deeper performance profiling and analytics tools for planning, deployment, and support of virtual GPU users.
According to the company the improved management tools address both host (server) managment and virtual client monitoring. Nvidia says that with the new Grid software, admins will be able to get information about the number of virtual graphics instances in use and the number they can potentially create.
They can also see usage information for the stream processors on board each card, the percentage of the card’s frame buffer that’s in use, and the load on each card’s dedicated video encode and decode hardware.
Each guest vGPU instance will tell admins information on encoder and decoder usage, frame buffer occupancy, and the vGPU use. Nvidia adds that it all takes the guess work out of vGPU provisioning and the data it’s exposing about vGPU usage will let system administrators tailor their virtual user profiles better.
All this means that it might stop the admins giving too much processing power to accounts when it is needed for the graphics team. Nvidia thinks those operational improvements will also help lower costs. The August 2016 Grid software update should be available immediately.
Courtesy-Fud
Is Intel Losing Interest In Android?
Intel’s mobexit is gathering traction with Inteldeciding to slash its Android development.
While the outfit is still claiming that it is chums with Google, it is now saying that its Android development for tablets is the latest thing it is not interested in.
Intel has been cutting back on its Android upgrades for tablet hardware which suggests it is not interested. Instead it is working on 2-in-1s, which run mostly on Windows.
Intel’s x86 version of Android was mainly for devices with Atom processors, which the chip maker is phasing out. The replacement is Apollo Lake which will run Windows, but it is unclear if it will ever support Android.
The last Android which worked on Intel gear was Android 5.1.1, Lollipop, Intel-based mobile devices mostly run Android 5.0 or older versions.
What might keep Intel in Android might not be its own commitment to Android, but the fact that Google is keen to make its OS work with x86 chips. Google has said that Android 7.0 Nougat, will be compatible with x86 machines which will keep Intel in the game – if it wants to be.
PC World has suggested that Intel could offload development to the independent Android-x86 Project last month delivered the Android-x86 6.0 Release Candidate 1.
Intel is still a lead partner in Google’s Brillo. This is an embedded IoT OS with the dash of Android under the bonnet. Brillo works on Intel’s Edison development board, which can be used to make wearables, robots, smart home devices and other IoT gadgets.
But it is pretty clear that Intel is not interested in some of Google’s VR projects like DayDream which are based on Android.
Courtesy-Fud
AMD Finally Confirms Polaris Specs
In an official slides that have leaked, AMD has confirmed most of the specifications for both the Polaris 10 and the Polaris 11 GPUs which will power the upcoming Radeon RX 480, RX 470 and RX 460 graphics cards.
According to the slides published by Computerbase.de, both GPUs are based on AMD’s 4th generation Graphics Core Next (GCN 4.0) GPU architecture, offer 2.8 perf/watt improvement compared to the previous generation, have 4K encode and decode capabilities as well as bring DisplayPort 1.3/1.4 and HDR support.
Powering three different graphics cards, these two GPUs will cover different market segments, so the Polaris 10, codename Ellesmere, will be powering both the Radeon RX 480, meant for affordable VR and 1440p gaming as well as the recently unveiled RX 470, meant to cover the 1080p gaming segment. The Polaris 10 packs 36 Compute Units (CUs) so it should end up with 2304 Stream Processors. Both the RX 480 and RX 470 should be coming with 4GB or 8GB of GDDR5 memory, paired up with a 256-bit memory interface. The Ellesmere GPU offers over 5 TFLOPs of compute performance and should peak at 150W.
The Radeon RX 470 should be based on Ellesmere Pro GPU and will probably end up with both lower clocks as well as less Stream Processors and according to our sources close to the company, should launch with a US $179 price tag, while the RX 480 should launch on 29th of June with a US $199 price tag for a reference 4GB version. Most AIB partners will come up with a custom 8GB graphics cards which should probably launch at US $279+.
The Polaris 11 GPU, codename Baffin, will have 16 CUs and should end up with 1024 Stream Processors. The recently unveiled Radeon RX 460 based on this GPU should come with 4GB of GDDR5 memory paired up with a 128-bit memory interface. The Radeon RX 460 targets casual and MOBA gamers and should provide decent competition to the Geforce GTX 950 as both have a TDP of below 75W and do not need additional PCIe power connectors.
According to earlier leaked benchmarks, AMD’s Polaris architecture packs quite a punch considering both its price and TDP so AMD just might have a chance to get a much needed rebound in the market share.
Courtesy-Fud
Micron Announces 3D NAND Based SSDs
Micron has announced its first client- and OEM-oriented solid-state drives based on 3D NAND, the Micron 1100 and Micron 2100 series.
The Micron 1100 SSD is a more mainstream oriented SSD that will be based on Marvell’s 88SS1074 controller and Micron’s 384Gb 32-layer TLC NAND. Using a SATA 6Gbps interface and available in M.2 and 2.5-inch form-factors, the Micron 1100 should replace Micron’s mainstream M600 series, based on 16nm MLC NAND.
The Micron 1100 SSD will be available in 256GB, 512GB, 1TB and 2TB capacities. It will offer sequential performance of up to 530MB/s for read and up to 500MB/s for write with random 4K performance of up to 92K for read and up to 83K IOPS for write. With such performance, it is obvious that the Micron 1100 series will target mainstream market and be a budget SSD.
The Micron 2100 is an M.2 PCIe NVMe SSD that is actually Micron’s first client oriented PCIe SSD and also the first PCIe SSD based on 3D NAND. Unfortuantely, Micron did not finalize the precise specifications so we still do not have precise performance numbers but it will be available in capacities reaching 1TB.
The Micron 1100 is expected to hit mass production in July so we should expect some of the first drives by the end of the next month. The Micron 2100 will be coming by the end of summer.
Courtesy-Fud
Does Intel Need GPUs For HPCs
Nvidia might have scored a few wins by touting its GPU’s in the HPC market, but it is starting to lose ground to the co-processor, according to Intel’s Diane Bryant.
In an IDC interview Intel’s data center boss said that Nvidia gained an early lead in the market for accelerated HPC workloads when it positioned its GPUs for that task several years ago. However there is a perception that processors used for machine learning today are GPUs like those from Nvidia and AMD.
Bryant was a bit miffed when she was asked how Intel can compete in this market without a GPU. She said that the general purpose GPU, or GPGPU was just another type of accelerator and not one that’s uniquely suited to machine learning.
It is better to look at Knights Landing which is a coprocessor, but it’s an accelerator for floating point operations, and that’s what a GPGPU too.
She said that since the release of the first Xeon Phi in 2014, Intel now clawed back 33 percent of the market for HPC workloads that use a floating point accelerator.
“So we’ve won share against Nvidia, and we’ll continue to win share,” she said.
She said that Intel’s share of the machine learning business may be much smaller, but the market is still young.
“Less than one percent of all the servers that shipped last year were applied to machine learning, so to hear Nvidia is beating us in a market that barely exists yet makes me a little crazy,” she says.
Intel will continue to evolve Xeon Phi to make it better at machine learning tasks. She said that there are two aspects to machine learning – training the algorithmic models, and applying those models to the real world in front-end applications. Intel’s FPGAs and its Xeon processors mean Intel has both sides of the equation covered.
But Nvidia’s GPUs are harder for programmers to work with which could give Intel an edge as ordinary businesses need to adopt machine learning. Knights Landing is “self-booting,” which means customers don’t need to pair it with a regular Xeon to boot an OS.
However Intel’s newest Xeon Phi has a floating point performance of about 3 teraflops, which is a little slow compared to the five teraflops for Nvidia’s new GP100.
Courtesy-Fud
Intel’s PC Group Hit The Hardest
Intel’s restructuring axe seems to be falling on its PC client division and software areas with more than 12000 jobs to go.
Our well-placed sources are confident that the PC group will be the hardest hit. This is all because the PC market has stopped growing and Intel has to find its way to new markets to supplement loss of this business.
Latest research data from IDC indicates that in 2016 PC market will decline from 275.8 million units in 2015 to 260.8 million units in 2016 and the current projections for 2017 show the PC market slightly decreasing to 257.9 million units. At its peak PC market was at 364.0 million units, but this was in 2011 when things were rosier, kids were polite to their parents, and rock stars played decent music. These times are clearly behind us and Intel knows it.
The PC group downsize is being supervised by Dr. Venkata “Murthy” Renduchintala who is Intel’s number two. He is the bloke who was paid $25 million dollars to defect from Qualcomm. Murthy has already done a high level clean up at PC client group and is believed to be thinking about dusting the top of the corporate bookshelf next.
Another team which will be pummeled is Rene James’s old software outfit. People from software services and the security division formerly known as McAfee are expected to mostly go the same way as the artist formerly known as Prince.
Murthy’s also wants to get Intel to the right course with IoT market. Marketing for that area is expected to grow from $655.8 billion in 2014 to $1.7 trillion in 2020. Intel wants the piece of that cake, and perhaps a few tea and biscuits to go with it and it will be interesting to look the fight in this promising land market.
There is still no killer app to help the IoT market which defines it. IoT right now is nothing and everything.
Courtesy-Fud
MediaTek To Spin-Off Virtual Reality Unit
Comments Off on MediaTek To Spin-Off Virtual Reality Unit
MediaTek is so confident about its VR plans it is going to spin off its VR division to form an independent company in June.
A recent Chinese-language Economic Daily News report claims that Mediatek wants the spun off business to drive VR sales. It all sounds pretty good but MediaTek have sort of denied the report.
Well we say sort of denied it. What it has told the Taiwan Stock Exchange that it was not the report’s source, which is not quite the same thing.The spin off could go ahead, but MediaTek is denying that it told the EDN its cunning plans. But then again the EDN did not name its source either. Without a denial from the company we are none the wiser.
MediaTek’s VR unit was set up between end-2015 and early-2016 to focus on the development of the company’s VR solutions for handsets, the EDN thought.
Courtesy-Fud