Microsoft Cuts Azure Pricing
Good news for businesses using Microsoft’s Azure cloud platform: their infrastructure bills may get somewhat smaller next month.
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
Apple Buys Parts of Qualcomm
December 31, 2015 by admin
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Apple has bought one of Qualcomm’s Taiwan graphics labs and is operating it pretty much under everyone’s radar to “invent” something that Qualcomm tried and failed to make successful.
The lab was used by Qualcomm to develop Interferometric Modulator Display and Apple Insider claims it is now being used to develop thinner, lighter, brighter and more energy-efficient screens.
The lab employs at least 50 engineers and has recruited talent from display maker AU Optronics and Qualcomm. Outside the lab there is no signage or much to indicate that the Fruity Cargo Cult has assumed control.
Government records show that the building is registered to Apple Taiwan, and a staff in the building were observed wearing Apple ID badges.
Bloomberg thinks Apple wants to “reduce reliance on the technology developed by suppliers such as Samsung, LG, Sharp and Japan and instead “develop the production processes in-house and outsource to smaller manufacturers such as Taiwan’s AU Optronics or Innolux.
Apple currently uses LCD screens in its Macs and iOS devices and an OLED display for Apple Watch and the new lab was where Qualcomm tried to develop to develop its own Mirasol displays.
Mirasol use a different technology to backlit LCDs or OLED. It uses an array of microscopic mirror-like elements that can reflect light of a specific colour. It does not need a backlight and only uses energy when being switched on or off, like E-Ink.
The downside to IMOD has historically been that it reproduces flat, unsaturated colours, a problem that may be possible to fix. Qualcomm introduced a Toq smartwatch with an IMOD screen, but the device flopped.
Qualcomm took a $142 million charge on its Mirasol display business and a year ago there were rumours Qualcomm was selling off its Longtan Mirasol panel plant to TSMC.
What appears to have happened is that Jobs Mob might have bought more than just the facility, and instead has some interest in using Mirasol IMOD technology which could offer an advanced technological breakthrough in enabling a new class of low-power displays for use in phones, tablets or wearables.
Courtesy-Fud
Will UMC Chip Shipments Drop In The Fall?
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Foundry UMC is expecting its shipments to fall by five percent in the fourth quarter of 2015, as a result of ongoing inventory adjustments within the industry supply chain.
Revenues for the last part of the year will be adversely affected by an about one per cent drop in wafer ASPs and capacity at its plants will slide to 81-83 per cent in the fourth quarter from 89% in the third.
UMC’s had already lowered capacity in the third quarter. At the beginning of the year it was running at 94 percent.
The company’s revenues decreased 7.1 per cent to $1.07 billion in the third quarter, with gross margin slipping below 20 per cent.
UMC net profits were down 62.9 per cent on quarter, as both operating and non-operating income eroded. This is bad news because in the first three quarters of 2015, UMC’s net profits increased 35.8 per cent from a year earlier.
However UMC is continuing to invest in new capital and will spend $1.8 billion.
CEO Po-Wen Yen said that the continuing IC inventory adjustment will dampen fourth quarter wafer shipments, but UMC continues on the path towards long-term growth.
“Throughout 2015, UMC engineers and Fab12A have worked tirelessly to bring several new 28nm product tape-outs into volume production. “UMC is working to bring a timely conversion of new 28nm requirements into production, which will strengthen our business.”
Courtesy-http://www.thegurureview.net/computing-category/will-umc-chip-shipments-drop-in-the-fall.html
Oracle’s M7 Processor Has Security On Silicon
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Oracle started shipping systems based on its latest Sparc M7 processor, which the firm said will go a long way to solving the world’s online security problems by building protection into the silicon.
The Sparc M7 chip was originally unveiled at last year’s Openworld show in San Francisco, and was touted at the time as a Heartbleed-prevention tool.
A year on, and Oracle announced the Oracle SuperCluster M7, along with Sparc T7 and M7 servers, at the show. The servers are all based on the 32-core, 256-thread M7 microprocessor, which offers Security in Silicon for better intrusion protection and encryption, and SQL in Silicon for improved database efficiency.
Along with built-in security, the SuperCluster M7 packs compute, networking and storage hardware with virtualisation, operating system and management software into one giant cloud infrastructure box.
Oracle CTO Larry Ellison was on hand at Openworld on Tuesday to explain why the notion of building security into the silicon is so important.
“We are not winning a lot of these cyber battles. We haven’t lost the war but we’re losing a lot of the battles. We have to rethink how we deliver technology especially as we deliver vast amounts of data to the cloud,” he told delegates.
Ellison said that Oracle’s approach to this cyber war is to take security as low down in the stack as possible.
“Database security is better than application security. You should always push security as low in the stack as possible. At the bottom of the stack is silicon. If all of your data in the database is encrypted, that’s better than having an application code that encrypts your data. If it’s in the database, every application that uses that database inherits that security,” he explained.
“Silicon security is better than OS security. Then every operating system that runs on that silicon inherits that security. And the last time I checked, even the best hackers have not figured out a way to download changes to your microprocessor. You can’t alter the silicon, that’s really tricky.”
Ellison’s big idea is to take software security features out of operating systems, VMs and even databases in some cases – because software can be changed – and instead push them into the silicon, which can’t be. He is also urging for security to be switched on as default, without an option to turn it back off again.
“The security features should always be on. We provide encryption in our databases but it can be switched off. That is a bad idea. There should be no way to turn off encryption. The idea of being able to turn on and off security features makes no sense,” he said.
Ellison referred back to a debate that took place at Oracle when it first came up with its backup system – should the firm have only encrypted backups. “We did a customer survey and customers said no, we don’t want to pay the performance penalty in some cases,” he recalled. “In that case customer choice is a bad idea. Maybe someone will forget to turn on encryption when it should have been turned on and you lose 10 million credit cards.”
The Sparc M7 is basically Oracle’s answer to this dire security situation. Ellison said that while the M7 has lots of software features built into the silicon, the most “charismatic” of these is Silicon Secured Memory, which is “deceptively simple” in how it works.
“Every time a computer program asks for memory, say you ask for 8MB of memory, we compute a key and assign this large number to that 8MB of memory,” he explained. “We take those bits and we lock that memory. We also assign that same number to the program. Every time the program accesses memory, we check that number to make sure it’s the memory you allocated earlier. That compare is done by the hardware.”
If a program tries to access memory belonging to another program, the hardware detects a mismatch and raises a signal, flagging up a possible breach or bug.
“We put always-on memory intrusion detection into the silicon. We’re always looking for Heartbleed and Venom-like violations. You cannot turn it off,” the CTO warned.
“We’ve also speeded up encryption and decompression, which is kind of related to encryption. It runs at memory speed there’s zero cost in doing that. We turn it on, you can’t turn it off, it’s on all the time. It’s all built into the M7.”
Ellison claimed that running M7-based systems will stop threats like Heartbleed and Venom in their tracks.
“The way Venom worked, the floppy disc driver concealed this code. It’s the worst kind of situation, you’re writing into memory you’re not supposed to. You’re writing computer instructions into the memory and you’ve just taken over the whole computer,” he explained. “You can steal and change data. M7 – the second we tried to write that code into memory that didn’t belong to that program, where the keys didn’t match, that would have been detected real-time and that access would have been foiled.
All well and good, except for the fact that nearly every current computer system doesn’t run off the M7 processor. Ellison claimed that even if only three or four percent of servers in the cloud an organisation is using have this feature, they will be protected as they’ll get the early warning to then deal with the issue across non-M7 systems.
“You don’t have to replace every micro processor, you just have to replace a few so you get the information real-time,” he added.
“You’ll see us making more chips based on security, to secure our cloud and to sell to people who want to secure their clouds or who want to have secure computers in their datacentre. Pushing security down into silicon is a very effective way to do that and get ahead of bad guys.”
SuperCluster M7 and Sparc M7 servers are available now. Pricing has not been disclosed but based on normal Oracle hardware costs, expect to dig deep to afford one.
Source-http://www.thegurureview.net/computing-category/oracles-new-m7-processor-has-security-on-silicon.html
AMD’s Bet On ARM Does Is Not Working
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Buried in the AMD results was a note which seemed to hint that AMD’s plan to flog ARM based server chips was not going very well.
Chief executive Lisa Su admitted that ARM-based server chips have experienced slower-than-expected reception from the owners of data centres and server farms.
AMD delayed its own ARM-based Opteron microprocessor, code-named Seattle, until the fourth quarter of this year. ARM was having a harder time proving itself to the multibillion-dollar market for high-end server chips.
An engineering sample of AMD’s long awaited 8 core server SOC code named “Hierofalcon” has been spotted and tested and according to WCCTech it looked pretty good. Itis based around 8 ARM-64bit A57 cores running at 2.0Ghz. And although Hierofalcon maxes out at frugal TDP of 30W.
So even the promising reviews aren’t enough for AMD to be optimistic about the ARM based gear.
Su said in an analyst conference call that the company expects to see “modest production shipments” of Seattle in the fourth quarter. Meanwhile, AMD’s Intel-compatible “x86″ server chips will be the company’s mainstay product offering for data centres.
She said that AMD was continuing its ARM efforts and is seeing them as a longer term bet.
Source-http://www.thegurureview.net/computing-category/amds-bet-on-arm-does-not-appear-to-be-helping.html
Semiconductor Sales Still Down In 2015
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Semiconductor Sales Still Down In 2015 : :: TheGuruReview.net ::
Sales of semiconductors have remained sluggish during 2015 and look set to drop still further in 2016, according to new research from Gartner.
Last quarter, 2.5 percent growth was expected for 2015, but this has been revised down to a one percent drop in the market. 2016 remains predicted to see a 3.3 percent drop.
“We are continuing to see weakness in end-user electronics demand in response to an uncertain economic environment, which is putting a dampener on 2015 spending,” said Takashi Ogawa, research vice president at Gartner. “Next year we are anticipating DRAM manufacturers to respond to oversupply with dramatic reductions in their investment plans.”
The drop likely comes off the back of weak PC sales too, with Gartner last week revealing that, despite the release of Windows 10, sales of devices slumped 7.7 percent in the third quarter.
The future looks brighter, though, and figures for 2017, 2018 and 2019 show significant growth with the losses of 2015 more than recovered as soon as 2017.
A number of key companies, including Intel, have cut spending in the past quarter against a backdrop of slow demand for electronics. This has led in some cases to semiconductor plants significantly shrinking production to avoid a surplus of obsolete chips in the fast evolving industry.
“In the DRAM market, weak end-market conditions combined with new foundries coming on line at Samsung and SK Hynix have created a weaker market than anticipated in our last forecast,” said Ogawa.
“As a result, we anticipate that DRAM manufacturers will move more quickly from investing in new capacity to a maintenance and upgrade existing capacity mode of operation.”
Meanwhile, NAND memory has actually moved to a small predicted growth of 0.1 percent against a 19.4 percent drop predicted last quarter. The rise of NAND thanks to alliances such as the one between SanDisk and HP has led Gartner to predict a 10 percent shift from DRAM to NAND in the next six months or so, while DRAM manufacturers will begin to slow investments around this time next year.
The news comes after reports that SanDisk is looking to consolidate its business by putting itself up for sale to another market player. WD and Micron are said to be likely buyers.
Source-http://www.thegurureview.net/computing-category/semiconductor-sales-still-down-in-2015.html
Apple Finally Drops iCloud Storage Plan Prices
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For the second time in as many years, Apple dropped prices for its expanded iCloud storage plans, putting costs in line with rivals like Google, Microsoft and Dropbox.
Apple announced changes to iCloud extra storage pricing earlier this month at the event where it unveiled new iPhones, the larger iPad Pro and a revamped Apple TV.
Although the Cupertino, Calif., company did not boost the amount of free storage space — as Computerworld speculated it might — and instead continued to provide just 5GB of iCloud space gratis, it bumped up the $0.99 per month plan from 20GB to 50GB, lowered the price of the 200GB plan by 25% to $2.99 monthly, and halved the 1TB plan’s price to $9.99.
Apple also ditched last year’s 500GB plan, which had cost $9.99 monthly.
The new prices are in line with the competition; in one case, Apple’s was lower.
Google, for example, hands out 15GB of cloud-based Google Drive storage for free — triple Apple’s allowance — and charges $1.99 monthly for 100GB and $9.99 each month for 1TB. The smaller-sized plan is 33% more per gigabyte than Apple’s 200GB deal, and Google’s 1TB plan is priced the same as Apple’s.
Microsoft also gives away 15GB. Additional storage costs $1.99 monthly for 100GB — the same price as Google Drive — while 200GB runs $3.99 per month, 33% higher than Apple’s same-sized plan.
Microsoft does not sell a separate 1TB OneDrive plan but instead directs customers to Office 365 Personal, the one-user subscription to the Office application suite. As part of the subscription, customers are given 1TB of OneDrive space. Office 365 Personal costs $6.99 monthly or $69.99 annually.
Source-http://www.thegurureview.net/aroundnet-category/apple-drops-icloud-storage-plan-prices.html
FCC Commits To 600 Mhz Wireless Spectrum Auction
September 21, 2015 by admin
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LAS VEGAS — Federal Communications Commission Chairman Tom Wheeler has committed to a March 29 start date for an unprecedented auction of 600Mhz wireless spectrum currently under the control of the nation’s broadcasters.
The auction has already been delayed two years, but Wheeler was adamant it will move ahead on a timeline that allows input from broadcasters as well as from wireless providers that would be potential spectrum buyers.
The broadcast spectrum in the 600Mhz band offers the potential to wireless carriers to send data, including video and other multimedia at much faster speeds and with lower latency. Latency refers to the speed required to generate a response to a wireless signal.
“I’m supremely confident [the auction] starts March 29,” he said in keynote comments at CTIA Super Mobility Week 2015 here. Explaining the delays, he said the planned auction is like a “Swiss watch with so many moving parts.”
The FCC plans to issue a new public notice in October that will give further details on the planned schedule. Wheeler said that around Thanksgiving, broadcasters will be able to indicate whether they want to participate in offering up the spectrum they use today.
Once the FCC establishes pricing, the broadcasters can decide whether to move forward or withdraw from the process if the prices don’t meet their needs, Wheeler said. In January, wireless providers — including newcomers, possibly — will be prompted to express interest in joining the auction to buy spectrum.
Wheeler contended that the 600MHz spectrum auction shows the FCC is moving to free up spectrum that the cellular industry says it urgently needs.
Source-http://www.thegurureview.net/mobile-category/fcc-commits-to-600-mhz-wireless-spectrum-auction-in-march.html
More Details Uncovered On AMD’s ZEN Cores
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Our well informed industry sources have shared a few more details about the AMD’s 2016 Zen cores and now it appears that the architecture won’t use the shared FPU like Bulldozer.
The new Zen uses a SMT Hyperthreading just like Intel. They can process two threads at once with a Hyperthreaded core. AMD has told a special few that they are dropping the “core pair” approach that was a foundation of Bulldozer. This means that there will not be a shared FPU anymore.
Zen will use a scheduling model that is similar to Intel’s and it will use competitive hardware and simulation to define any needed scheduling or NUMA changes.
Two cores will still share the L3 cache but not the FPU. This because in 14nm there is enough space for the FPU inside of the Zen core and this approach might be faster.
We mentioned this in late April where we released a few details about the 16 core, 32 thread Zen based processor with Greenland based graphics stream processor.
Zen will apparently be ISA compatible with Haswell/Broadwell style of compute and the existing software will be compatible without requiring any programming changes.
Zen also focuses on a various compiler optimisation including GCC with target of SPECint v6 based score at common compiler settings and Microsoft Visual studio with target of parity of supported ISA features with Intel.
Benchmarking and performance compiler LLVM targets SPECint v6 rate score at performance compiler settings.
We cannot predict any instruction per clock (IPC improvement) over Intel Skylake, but it helps that Intel replaced Skylake with another 14nm processor in later part of 2016. If Zen makes to the market in 2016 AMD might have a fighting chance to narrow the performance gap between Intel greatest offerings.
Courtesy-Fud
AMD Coherent Data Reaches 100 GBs
After a lot of asking around, we can give you some actual numbers about the AMD’s coherent fabric.
The inter-connecting technology already sounded very promising, but now we have the actual number. The HSA, Heterogeneous System Architecture MCM (Multi Chip Module) that AMD is working on can give you almost seven times faster score than the traditional PCIe interface.
Our industry sources have confirmed that with 4 GMI (Global Memory Interconnect) links AMD’s CPU and GPU can talk at 100GB/s. the traditional PCIe 16X provides 15GB/s at about 500 ns latency. Data Fabric eliminates PCIe latency too.
AMD will be using this technology with the next gen Multi Chip module that packs a Zeppelin CPU (most likely packed with a bunch of ZEN cores) and a Greenland GPU that of course comes with super fast HBM (High Bandwidth Memory). The Greenland and HBM can communicate at 500 GB/s and can provide highest performance GPU with 4+ teraflops.
This new MCM package based chip will also talk with DDR4 3200 memory at 100GB/s speed making it quite attractive for the HSA computation oriented customers.