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AMD’s 8350 Clocked At 4.0GHz
We have got some information about AMD’s upcoming FX 8350.
However, today we learned that AMD will push this CPU from Q3 to early Q4 2012 as now it claims that it can launch this processor in late October. AMD FX 8350 is an eight-core with 16MB cache, Vishera based 32nm core with 4.0GHz default clock and ability to jump to 4.2GHz with turbo core automatic overclocking.
This is an impressive frequency jump as the AMD FX 8150 works at 3.6GHz default and with turbo gets to 4.2GHz. The FX 8350 is supposed to replace the 8150 as AMD’s flagship processor.
According to current schedule production ready samples are expected in roughly a month (early August). Mass production starts in early August, probably days after they finalize the clocks and give it a green light for mass production but the launch is pushed for late October 2012.
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 Samsung Pursuing The Server Market?
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It is certain that Korean electronics giant Samsung will soon be entering the server chip market.
Reports are coming in that the company has been picking up key server personnel from Intel and AMD. Samsung has been focused on developing ARM chips and stayed clear of the x86 architecture used by Intel and AMD.
But the companies latest hires seem to indicate that might change.
Samsung’s latest recruits include veterans of the chip business like Jim Mergard, Frank Helms, who is a Fusion APU architect, Brad Burgess who designed the Bobcat APU and Patrick Patla (VP of AMD’s server business). Patla was behind the success of the Opteron chip set and has done well using the x86-server system.
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.
Did AMD Want nVidia Instead of ATI?
While it is ancient history now, it seems that the story about the controversial buying of ATI by AMD was not an easy process.
Forbes has found a deep throat who has left AMD who has told it that AMD approached graphics processor designer Nvidia about an acquisition before snapping up Nvidia rival ATI in 2006. AMD leaders believed that shrinking transistors would create an opportunity to add new capabilities to the processors AMD and rival Intel designed for PCs and servers.
AMD Chief Executive Hector Ruiz decided to bet that AMD could get ahead of rival Intel by grabbing a piece of the market for GPUs. Fusing CPUs and GPUs would let AMD hit the PC market with something Intel wasn’t ready to offer. Initially AMD thought that Nvidia was the best bet but the deal was killed off because Nvidia Chief Executive Jen-Hsun Huang insisted on being chief executive of the combined company.
Ruiz decided it was better to buy Nvidia rival ATI in July of 2006 for $5.4 billion. Nvidia replied by unleashing several strong products, gobbling up market share. AMD has fought its way back, with a strong lineup of graphics processors, Nvidia pushed into mobile processors. Nvidia has a market capitalization of $9.7 billion.
Will AMD’s HD 7950 Debut Next Month?
AMD has decided to delay the launch of its HD 7950 graphics card to early February.
This comes after news that the HD 7970, which AMD ‘launched’ on 22 December, will not be available until 9 January. This wasn’t received too well by the media and customers as it does help to have some stock to sell on launch day.
To avoid another bashing for a ‘paper launch’ the firm will launch the HD 7950 in February when it will actually be available. Guru 3D had confirmed this but the article has since been taken down.
AMD has told us that it won’t comment on rumour, speculation or any unannounced products.
The upcoming HD 7950 graphics card will use the same 28nm Southern Islands Tahiti GPU as the HD 7970, with the latter the first to do so. According to AMD it has 4.3bn transistors, more on-chip cache and greater overclocking potential than previous cards.
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Will Samsung Release A Quad-Core Processor?
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Samsung is reportedly developing a new quad-core chip that will power its next generation Galaxy series flagship smartphone.
According to androidandme.com, the Korean giant is preparing a new 32nm quad-core chip, the Exynos 4412. The new chip is based on the A9 architecture and it will run at speeds of up to 1.5GHz. Moreover, Samsung went for ARM Mali-400 graphics in the current Exynos 4210, so there is a good chance the new chip will include next generation Mali-604 graphics.
In terms of performance, the new chip could be a rather impressive beast. Compared to Nvidia’s Tegra 3, the Exynos could squeeze out a bit more performance per watt, thanks to its superior manufacturing process. On the graphics front, it could also sneak ahead of both Tegra 3 and Apple’s A5, with the SGX 543MP2 graphics core. The new chip should debut in early 2012 if all goes well.
Interestingly, Samsung has been keen to embrace processors and graphics solutions from a number of companies in the past. Even now, the company is selling a rather awkward mix of phones and tablets based on Samsung, Nvidia, Qualcomm and Texas Instruments chips. Basically Samsung is in bed with everyone, but it is obviously taking mobile chip development seriously and we could see some if not all third-party suppliers phased out sometime in the future.
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Intel Gives Details On Their Xeon E5 Processors
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Intel finally gave more details at the supercomputing conference SC2011 about its upcoming Xeon E5 processors and been showing off its Knights Corner many integrated core (MIC) solution.
We don’t expect to see the new Xeons until the first half of 2012, but Intel has has been shipping the new chips to “a small number of cloud and HPC customers” since September. The E5 family has the same core as the 3960X which Intel launched this week. So far though Intel does not seem to be keen to ramp up any mass production. Some of this might have something to do with problems in production which were rumoured earlier this year. However early benchmarks indicate that it could be a winner.
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Will Cortex A7 Accelerate Android?
Texas Instruments (TI) said ARM’s heterogeneous ‘Big.little’ architecture helps it accelerate Google’s Android operating system.
TI, which designs the popular range of OMAP system-on-chip (SoC) processors found in many smartphones told The INQUIRER that ARM’s newly unveiled Big.little architecture will help improve overall performance of the Android operating system.
Avner Goren, GM of OMAP Strategy at TI told The INQUIRER that ARM’s Big.little architecture, which uses Cortex A7 and Cortex A15 cores, addresses a different need than that of multi-core processors made up of identical cores.
Goren said, “We have been using heterogeneous multi-cores since 2002, we always had an ARM CPU coupled to accelerators for video, graphics, DSPs, image processing. This [Big.little] doesn’t change anything in this idea. On the contrary, it builds on this concept and it is another dimension. None of what was held here changes what we are doing in the rest of the system.”
Goren continued by saying that Big.little is a natural progression from the multi-core, accelerator-aided processors of yesteryear. “What we have held today doesn’t change the fact I would continue doing accelerators, DSPs, video accelerators and use [Cortex] M3s inside, but it changes what I’m doing on the high-level Android side.”
When ARM’s multi-core processors tipped up at Mobile World Congress earlier this year firms were banging on about it would be a golden age of power efficiency due to being able to run multiple cores at lower frequencies. Now less than a year later and with dual-core smartphones still having relatively poor battery life, it looks like that strategy has gone for a Burton. Goren admits that homogenous multi-core architectures do have a problem.
“Multicores give you scalability in a range, performance goes up and down within this range based on how many cores are active and what is the voltage level for these cores. On the other hand it has a floor, this floor is when you have one core running at the lowest voltage. What we have identified is a need for general processing power, meaning running Android, even at a lower [power] level,” said Goren.
Goren said ARM’s A7 processor will allow TI to ramp up the Cortex A15 core without hurting the ‘idle’ performance of the more frequently used Cortex A7 core.