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Ivy Bridge E Delayed Until Fall
y Bridge E, Intel’s ultra-high end chip that is set to replace the Core i7 3970X, has been delayed. It doesn’t look like it was anything major. Our sources tell us that the decision was made by Intel server guys who did not want to launch this chip in Q3 as originally indented.
Since Q3 starts in July, a relatively slow month for IT, the normal time to launch products is late August or September, but at this time there is no confirmation that this will happen at this time.
Sandy Bridge E, or Core i7 3960X, was launched in Q4 2011, November 14th to be precise. This can give you a clue on when to expect the successor.
Originally Ivy Bridge E was supposed to launch in Q3, one quarter after the launch of quad-core Desktop Haswell processors. Ivy Bridge E works in X79 motherboards but we do expect that a few key motherboard vendors will have their newer versions ready for the launch of the new $999 flagship processor.
If Intel continues at this pace, it will take quite a while before we see Haswell E in action.
AMD Goes Richland
There have been more than enough leaks dealing with Richland, AMD’s successor to the Trinity powered Virgo platform, and we even had a chance to see some leaks regarding its successor, codenamed Kaveri. As you may already know, Richland is planned to last through 2013 and it is clear that this is very important chip for AMD.
Based on the Piledriver architecture and built using 32nm technology, Richland will feature an integrated GPU that will be upgraded to Radeon HD 8000 series, a generation ahead of Trinity. As you know, there has been a lot of leaks regarding the Richland parts and the quad-core A10-6800K with Radeon HD 8670D graphics is expected to pack quite a punch. Best of all, Richland will still use the same FM2 socket.
According to our sources, the NDA will be lifted on 12th of March, 8am EST, and we are sure that we will see at least a couple of reviews as well as some additional info regarding the price and the availability date.
Will Intel’s Haswell Debut With Bugs?
According to a report over at Hardware.info that managed to get their hands on an internal Intel document, it appears that Intel’s Haswell platform might have a problem with its USB 3.0 host controller.
Although it is not as serious as the Cougar Point SATA 3Gbps bug, the USB 3.0 controller on Haswell platform will have issues with the S3 sleep mode and devices that are connected via USB 3.0 port. Apparently, when waking from S3 sleep, applications that are accessing the data from, for example, USB 3.0 storage device might freeze and force the user to reopen them manually.
Thankfully, the bug will be more of a nuisance rather than a problem as any loss of data is excluded. Intel does not plan to delay the launch and it is still scheduled for mid-2013, according to an Intel representative comment for Hardware.info. Intel is apparently still researching what other consequences this issue could possibly have and plans to resolve the problem in a future CPU stepping.
Intel Takes A Shot At ARM
ARM chips practically rule the mobile chip market, but Intel is trying to carve out a foothold with its new x86 chips, with relatively little success.
Intel claims its parts can outperform ARM chips in benchmarks and its manufacturing process lead should help it deliver faster and smaller chips. However, in spite of Intel’s claims, few vendors seem interested in its mobile chips.
Speaking to CNN, Intel mobile chief Mike Bell stressed that Intel has the software and systems competence to be the most successful player on the market. He pointed out that Intel can develop software to get the most out of its hardware and that Intel single core chips outperform multicore ARM designs.
“It’s a question of whether you’d rather have a jet engine or two propellers,” said Bell.
Granted, Bell has to tout the company line, but his engine comparison works both ways. Crop dusters and ultralight planes don’t need jet engines, or two piston engines for that matter. That is what really matters and Intel knows it. Not everyone needs a turbojet or turbofan, and not everyone needs an Intel core, especially not in mid- to low-end devices.
Intel believes its next generation 22nm mobile parts, with integrated LTE, will allow it to score some tablet and smartphone partners in late 2013 or 2014. However, Intel will have nothing to take on new A15 class ARM chips this year.
Quantum Computing Making Strides
Researchers at the University of Innsbruck in Austria have managed to transfer quantum information from an atom to a photon, which is being seen as a breakthrough in the making of quantum computers.
According to Humans Invent the breakthrough allows quantum computers to exchange data at the speed of light along optical fibres. Lead researcher on the project Tracy Northup said that the method allows the mapping of quantum information faithfully from an ion onto a photon.
Northup’s team used an “ion trap” to produce a single photon from a trapped calcium ion with its quantum state intact using mirrors and lasers. No potential cats were injured in the experiment. The move enables boffins to start to play with thousands of quantum bits rather than just a dozen or so. This means that they can get a computer to do specific tasks like factoring large numbers or a database search, faster.
Will Intel Haswell V2 Be Efficient?
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It is being said that Intel made a bold battery life claim that hasn’t been really advertised by the company so far.
At this point it doesn’t benefit Intel to announce it, as such news can change in a heartbeat, but it looks as if the Haswell 2 chip platform, a part of Shark Bay 2013 platform, should have significantly better battery life than the previous Ivy Bridge 2012 generation.
Our sources close to Intel claim that we can expect as much as up to 70 percent more battery life compared to an equivalent Chief River (Ivy Bridge) platform. This is a huge success. Compared to an existing generation platform and even in the Shark bay Ultrabook baseline feature Intel dares to share that we can expect whole-day battery life.
When Intel and other companies talk about all-day battery life, it usually means a working day, or eight hours, so don’t be tricked into thinking that whole day battery life means 24 hours. Most Ultrabooks today can deliver 5 to 6 hours and it looks like this is about to change with Shark Bay Ultrabooks, that are expected in Q3 2013.
Haswell just got a bit more attractive in our eyes as it will bring a lot of computing power and decent battery life that makes it much more competitive against tablets. It appears that Haswell convertible notebooks really have a chance in the war against ARM based tablets, but they will still be pricier.
AMD Releases Vishera
Although it was detailed back in August last year, AMD has just now officially released its new “affordable” Vishera based FX-4130 quad-core socket AM3+ CPU.
The new CPU is part of AMD’s 4100-series and is based on Vishera core design with four Piledriver cores. It works at 3.8GHz base clock and can “turbo” up to 3.9GHz. It packs 4MB of L2 and 4MB of L3 cache and has a 125W TDP.
According to the slide over at Xbitlabs.com, the FX-4130 replaces the FX-4100 with the same US $101 price but should provide between 3 and 9 percent more performance.
As things get better with Globalfoundries and their 32nm process technology, AMD is expected to introduce new models based on cut-down versions of Vishera, according to the report.
Intel Makes Changes To Haswell
Intel has started dividing its mobile market segments into processors lines, where the Y processor line goes up to 11.5W TDP, U line covers chips in the 15W to 25W range, while the M line covers 37W, 47W as well as 57W TDP space, with two to four cores and graphics up to GT2.
The high performance H processor line is yet another BGA package processor line that also aims for 37W, 47W and 57W TDPs, with quad-core processors and up to GT3 graphics with on-package cache memory.
Intel expects that high performing gaming and workstation PCs will go use these processors and they fit some thick clamshell designs, no Ultrabooks with 57W unless you would want to use one for welding.
Intel currently doesn’t detail the processor number and the number of SKUs but it is obvious that they will end up with quad-core Core i7 branding for QC1+ and QC2+ market segments.
Will Tegra 4 Launch In Q2?
Tegra 4 was supposed to be production ready in Q4 2012 and the general expectation was that CES 2013 would be marked by the launch of phones and tablets based on the new chipset.
It turns out that the chip needed another re-spin, something that usually creates a delay of roughly a quarter. We don’t know which part of the chip was to blame but our sources claim that Tegra 4 is a complex chip with a lot of components where many things can go wrong.
Nvidia dared to move to 28nm, change the core from A9 to A15 and find a way to make its LTE work. There were a lot of things that could go wrong and obviously some did.
This is why Intel first shrinks the core, for example from 32nm to 22nm, and then in its “tock” cycle goes for a newly designed core. Nvidia doesn’t have that luxury, as making a 28nm version of Tegra 3 would not be enough for the SoC market in 2013.
A few people at Nvidia have been telling us that the chip has been sampled to accounts and Nvidia is planning to have some designs announced at the Mobile World Congress. We managed to confirm this schedule with some Nvidia partners.
Intel’s Haswell Goes 13W
Intel’s Haswell Y-series processors as we said a few weeks ago have yet launch. The current plan is to launch two Ivy SKUs in Q1 2013, both dual-cores, and later in 2013 Intel plans to replace them with Haswell Y series parts, with even lower TDP.
The faster one is called Core i7 3689Y and has two cores and two threads, as well as a base clock of 1.5GHz. With the help of Intel Turbo Boost 2.0, the top single-core turbo clock is an impressive 2.6GHz, while the maximum dual-core turbo clock stops at 2.4GHz, which is still impressive. This core comes with Intel HD graphics 4000 clocked between 350MHz and 860MHz with turbo.
This new core supports both DDR3 and DDR3L at 1600MHz, has 4MB of cache and impressively low 13W TDP. We have explained that SDP stands for Standard Dissipation Power and Intel expect it to be at 7W for this part.
The runner up is called Core i5 3439Y and has the same two cores and two threads with 1.5GHz base clock, but the single core turbo clock stops at 2.3GHz, while the dual-core top clock is 2.10GHz. The graphics speed, TDP and memory support remain the same, but there is a difference in cache size. Core i5 3439Y comes with 3MB instead of 4MB for Core i7 Y series 3689Y part.