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Intel Increasing Supplier Audits
Intel has audited almost five times as many of its suppliers in 2011 than it did the previous year.
Chipzilla set itself a target of visiting 50 on-site, third-party audits of its suppliers during the last year. It had that target last year as well, but missed it by only carrying out 49 audits, while one had to be rescheduled.
In comparison Intel only carried out eight visits in 2010. The company also conducted 249 in-depth assessments and 289 self-assessments by suppliers.
But the findings were not that great. Intel found 426 priority and major findings, the highest class of non-compliance as defined by the company.
Most of the non-compliance related to management systems such as a lack of documentation and systems for CSR, inadequate communication with workers or suppliers and a lack of audits. But there were also 112 instances of labour abuse, which included working hours of more than 60 hours per week, and workers not being given at least one day off a week. There were also 28 issues relating to ethics, such as not having an anonymous reporting line for employees to raise issues or concerns through.
The report was interesting because it must have covered Foxconn, which has been the subject of criticism over its treatment of workers. During 2011, Intel carried out audits at three Foxconn facilities and found them about as bad as others in the region. Most of the breaches of rules were in the areas of labour conditions, safety systems, and management systems.
AMD Officially Launches Trinity Mobile
AMD has finally and officially lifted an NDA veil off its mobile Trinity A-series APU lineup based on the 2nd-gen Bulldozer CPU core, aka Piledriver, and VLIW4 Northern Islands GPU squeezed together on a 32nm SOI die.
Architecture-wise, AMD’s Trinity combines two to four Piledriver x86 cores combined with up to 384 VLIW4 Radeon cores on a 32nm die which ends up as a 246mm2 chip with 1.303B transistors, slightly more than Llano’s 228mm2/1.178B. Since it is made in the same 32nm manufacturing process as Llano, the greatest win for Trinity are actual CPU and GPU performance improvements as well as impressive power consumption improvements when compared to Llano APUs.
Same as the FX-series desktop parts based on the Bulldozer architecture, AMD’s Trinity CPU part has a 2+1 integer/floating point design where you get two integer cores that share a single floating point scheduler. Although it appears to the OS as two cores, each Piledriver module actually has less resources than traditional core design. But with Piledriver, those Bulldozer kinks got ironed out as much as possible, improving IPC (instruction per cycle), reducing leakage, reducing CAC and giving it a slight frequency uplift.
As far as the GPU is concerned, we are looking at quite familiar Northern Islands VLIW4 part, a same one that was behind Cayman Radeon HD 6970 graphics card. Of course, the GPU has been cut down to up to 384 stream processors (organized in 6 SIMDs) with 24 texture units and 8 ROPs. The clocks have also gone down to 497MHz base clock that can “turbo” up to 686MHz.
Trinity Launching On Desktops This Summer
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AMD is expected to introduce its new mobile Trinity APU in a week or so and now we are hearing some timeframes for desktop parts as well.
According to Digitimes, desktop Trinity parts are coming in August, while Brazos 2.0 chips are expected in June. There is no word on Trinity ULV parts yet and we believe they will be the most interesting of the lot.
Is Moore’s Law Dead?
May 11, 2012 by admin
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Physicist Michio Kaku says that Moore’s law will be dead within about 10 years.
Kaku, professor of theoretical physics at City University of New York told BigThink.com that we are already seeing a slowing down of Moore’s Law. He said that computing power simply cannot maintain this rapid, exponential rise using standard silicon technology.
Kaku said that the latest CPUs from Intel, which use a unique three-dimensional design, do continue roughly doubling processors. But he points out that the new design is nonetheless proof that the Law is winding down.
The two basic problems are heat and leakage and that is why the age of silicon will eventually come to a close.
By continuing to shrink the parts that go into processors, heat becomes concentrated. At a point in the near future, the heat generated will be so intense that the chip will melt. You can literally fry an egg on top of the chip, and the chip itself begins to disintegrate, he said.
AMD Shows Off New Radeon Chips
AMD has now officially updated its HD 7000M lineup of mobile GPUs with HD 7700M, HD 7800M and HD 7900M GPUs that are all based on AMD’s 28nm GCN architecture. The first in line that should show up in notebooks is the flagship HD 7970M GPU.
As noted, the entire lineup is based on AMD’s 28nm GCN architecture, but as always, the naming scheme of the AMD mobile parts has nothing to do with the desktop ones. The HD 7900M, codename Wimbledon, is actually based on 28nm Pitcairn destkop GPU that features 1280 stream processors, 80 texture units, 32 ROPs and up to 2GB of GDDR5 memory paired up with a 256-bit memory interface.
The HD 7800M series, codename Heathrow and the Radeon HD 7700M series, codename Chelsea, are both based on Cape Verde desktop GPU but with a slight twist. While Heathrow, HD 7800M series features fully enabled Cape Verde GPU with 640 stream processors, 40 texture units and 16 ROPs, the Chelsea HD 7700M series is based on a “crippled” Cape Verde core with 512 stream processors and 32 texture units. Both the HD 7800M series and the HD 7700M series will feature up to 2GB of GDDR5 memory paired up with a 128-bit memory interface. Of course, we expect at least two SKUs for both HD 7700M and HD 7800M series.
AMD also decided to ditch the PCI-Express 3.0 support on the HD 7700M series mainly as this one is aimed at lower-performance platforms that are all about power saving, and performance gain was simply too low.
For now, AMD has only shed precise details regarding the HD 7970M GPU that is based on the fully enabled Pitcairn GPU with 1280 stream processors that will end up clocked at 850MHz for the GPU and 4.8GHz for 2GB of GDDR5 memory paired up with a 256-bit memory interface.
As you can notice, the HD 7970M has lower GPU clocks than its HD 7870 desktop counterpart, but AMD also decided to keep the memory at the same level resulting in 153.6GB/s of memory bandwidth. According to AMD slides, HD 7970M should end up to be anywhere between 30 and 60% faster than HD 6990M and anywhere between 16 and 76 percent when compared to Nvidia current high-end GTX 675M GPU.
AMD’s Trinity To Have Fewer Cores
AMD’s soon to launch A10 5800K is a 100W quad-core Trinity 32nm CPU with 3.8 GHz base clock and 4.2GHz maximal clock possible with AMD turbo core dynamic overclocking technology.
The A10 5800K has 4MB of L2 cache, supports DDR3 1866, dual graphics configurations as well as AMD’s new FM2 socket. The fun part is new HD 7660D GPU that works at 800MHz and comes with 384 shader units. The current APU market leader A8 3870K that works at 3GHz has HD 6550 graphics with 400 cores running at 600MHz.
AMD claims that new Radeon cores from Trinity CPU including A10 5800K are more efficient and this is the main reason why you have fewer cores that can deliver superior performance. The other reason is that with 800MHz core clock they can probably process more data, meaning that HD 7660D of A10 5800K should end up quite a bit faster than the Llano A8 3870K.
All these Radeon cores are a key feature of the Vision Engine that accelerates GPU enabled applications. AMD also tells the world that Trinity is DirectX 11 compatible, supports Direct compute and the new A series of processors, including the A10 5800K all the way to dual-core A4 5300, should not have any issues playing Blu-ray 3D. The GPU part of Trinity supports AMD V, UVD3 as well as Open CL acceleration.
AMD 7990 Specs Unveiled
As we draw close to the official Nvidia GTX 680 Kepler GK104 launch day it is no wonder that we’ll hear more and more about AMD’s upcoming dual-GPU HD 7990 graphics card and Chinese site INPAI has shed some new light on the dual-headed beast. Apparently, the HD 7990 will pack two Tahiti XT chips squeezed together on one PCB.
According to the post at INPAI, the upcoming HD 7990 features two 28nm GCN Tahiti XT chips, same one found on the HD 7970 graphics card. This means that we are looking at a card that will have 2048 stream processors and 3GB of memory per GPU. Appearently, these two Tahiti chips will end up clocked at 850MHz while memory will work at 1250MHz (5GHz effective).
Ivy Bridge Chips May Cost Under $100
March 15, 2012 by admin
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We still don’t know the official branding of Ivy Bridge Pentium chips, but we are aware of plans for at least one SKU.
Intel plans to launch a Pentium branded Ivy Bridge and replace the G860 Pentium that currently holds the key position in L3 Legacy market. This 3.0GHz 32nm Sandy Bridge dual-core with two treads is currently available and sells for $86. Let’s not forget the 3MB cache size.
In Q2 2012 the Pentium family gets a new member, the 3.1GHz clocked G870, and both G870 and G860 get replaced in L3 market segment by an unnamed Ivy Bridge Pentium. We know that it should start selling for $86 and that this will be the cheapest of 22nm based desktop Ivy Bridge.
Hitachi Bringing New Xeon Servers To Market
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Hitachi Data Systems announced that it will expand its family of blade and rack server products for the enterprise market. The forthcoming Hitachi Compute Systems will be based on the new Intel Xeon processor E5-2600 family.
Roberto Basilio, vice president, Infrastructure Platforms Product Management, Hitachi Data Systems said that by leveraging the new Intel Xeon processor E5 family, upcoming Hitachi Compute Systems will feature faster performance, higher density and greater energy efficiency. The servers are being designed for converged data centres. They come pre-configured and optimised for leading applications such as Microsoft Exchange 2010, SAP HANA and solutions with VMware.
He said that the Intel Xeon processor E5-2600 product family provides exceptional energy efficiency, increased security, flexible performance and the opportunity for streamlining customer’s data centres. The current range of Hitachi Compute Systems consists of two blade server product lines, Hitachi Compute Blade 2000 and Hitachi Compute Blade 320, both of which are intended for high performance, high availability applications. The portfolio also includes a family of rack-optimised servers, Hitachi Compute Rack, that are the foundation for dedicated, packaged solutions such as the company’s award-winning object store, Hitachi Content Platform (HCP).
Ivy Bridge Specs Leaked
Intel has inadvertently leaked details of its upcoming Ivy Bridge processors in a sales flipbook uploaded to its website.
Intel’s much delayed Ivy Bridge processors are expected to tip up in the second quarter sporting the firm’s tri-gate transistor technology. Details of the chips had been relatively scant, until that is the firm decided to upload a sales flipbook, which details what appear to be most of its third generation Core i5 processors.
According to Intel’s slides there are only modest frequency bumps, with the quad-core Core i5-2570 and Core i5-2570K topping the range with speeds of 3.4GHz and 3.8GHz in Turbo mode. The addition of the ‘K’ suffix signifies Intel HD 4000 graphics, while the Core i5-3570 plods along with Intel HD 2500 graphics.
Like Chipzilla’s Sandy Bridge Core i5 chips, the Ivy Bridge Core i5 range will be all quad-core chips with 6MB of cache that lack Hyperthreading, with one exception, the Core i5-3470T, which is a dual-core Hyperthreaded processor with 3MB of cache. Previously the ‘T’ suffix was added to signify a 35W TDP chip, though this was not confirmed on the leaked slide.