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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.
AMD Debuts R5000
AMD has released its Firepro R5000 graphics card that has video over IP capabilities.
AMD typically promotes its workstation class Firepro cards using CAD/CAM software, however this time the company is relying on remote viewing as the big selling point for its latest workstation graphics card. AMD’s Firepro R5000 has a GPU that uses its Graphics Core Next (GCN) architecture and Teradici PC video over IP technology to send graphics output over the network.
AMD used its Pitcarin GPU coupled to 2GB of GDDR5 memory in the Firepro R5000. However it isn’t AMD’s GPU that is the big selling point of the Firepro R5000 but rather Teradici’s Tera2240 chip that encrypts display output before sending it out on the network, while supporting up to 60fps (frames per second).
AMD’s Firepro R5000 is intended to be used in render farms, with each final image being sent over an IP network to the end host, and the firm claims that the technology can be used in education, financial and media environments.
The Firepro R5000 is a single slot graphics card that has two mini Displayport outputs that can drive two 2500×1600 displays, however it can also drive a further four remote displays at 1920×1200 resolution by sending data over its RJ45 Ethernet port.
Both AMD and Teradici talked up the low configuration overheads of the Firepro R5000.
AMD 2014 GPU Shaping Up
It looks like AMD has changed its mind about 8000 series graphics, part of the Solar System range of products are slowly showing up in the market.
We got an idea that at some point in the latter part of 2013 there will be some new Sea Islands based graphics line from AMD. What we refer to as the HD 8000 series will come at some point, but AMD can actually end up branding some of these new parts as HD 7000 series products as well.
We were more interested in the big picture, when and whether we will see an entirely new generation in 2014, let’s call it 9000 series for now. Multiple sources have told us that AMD will stick with discrete graphics for the foreseeable future. In 2014, we should see the new HSA generation as well as a steady roadmap for the future beyond 2014.
Remember, AMD still makes quite a bit of money on graphics. It doesn’t makes a lot, but it doesn’t build GPUs at a loss either. Its graphics integrated in CPUs, APUs if you will, also help AMD sell more cores and this is why AMD will stick with making new graphics cores in the future. Technology developed for high-end discrete graphics will trickle down to APUs over time.
Winning all three consoles, including the already launched Nintendo Wii U as well as the soon to launch Xbox 720 (next) and Playstation, 4 will definitely help AMD to perform even better in the future and build closer relations with developers.
Nvidia will have someone to fight in this market and AMD will continue to make discrete graphics cards, as well as notebook chips. Both companies will fight for as much market share as they possibly can and analysts who claim either of them is about to ditch the discrete market is dead wrong.
MSI Shows Off Lightning
MSI’s Geforce GTX 680 Lightning-L graphics card has showed up in Japan and it is possible that we will it in other markets as well.
Apparently not much has been changed compared to the original GTX 680 Lightning, as the PCB and feature set look about the same. The only thing that is different are the clocks. Set at 1019MHz and 1084MHz for base and boost GPU, they are somewhat lower. For comparison, the original GTX 680 Lightning worked at 1100MHz for base and 1176MHz for Boost GPU clock.
The new Lightning is still cooled by MSI’s Twin Frozr IV GPU and it comes with 2GB of GDDR5 memory clocked at 6008MHz. With the same feature set it is expected that this SKU will have a rather decent amount of overclocking headroom as well, depending on the GPU below the cooler, of course.
Although it has not been officially launched, we will surely keep an eye out for it in other markets as well.
AMD Delays Cards
While some people are packing in smoking, AMD thinks it is a good idea to pack in releasing new graphics cards, at least for a year or so.
AMD marketing manager Robert Hallock told Megagames that the company has no intentions to release Radeon HD 8000 series cards for the foreseeable future.
“The HD 7000 Series will remain our primary focus for quite some time,” he said.
When pressed he said that AMD and its partners are happy with the HD 7000 Series, and it will continue to be its emphasis in the channel for the foreseeable future. There had been some rumours that an HD 8000 Series was being developed. However AMD has never confirmed it and so far there has been no proof that any were ready to show up.
Hallock’s comments lend credibility to rumours that the HD 8000 family won’t be out before Q4 2013.
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.
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.
nVidia’s Tegra 4 Specs Spotted
Here is an interesting leak, just what the doctor ordered to spice up a rather slow news cycle. Chiphell has posted a slide containing a few Tegra 4 specs, but we still don’t know the clocks or a few other interesting details. Of course, the leak should be taken with a grain of salt, but the specs are more or less in line with what we were expecting all along.
Tegra 4, codenamed Wayne, is a 28nm part with revamped graphics and new ARM cores. Although the slide does not directly point to the type of ARM cores used in the design, the new chip is based on ARM’s latest A15 core. Like the Tegra 3, the new chip will also feature an additional companion core to improve energy efficiency. No surprises here really.
In terms of GPU performance, Nvidia promises to deliver a six-fold improvement over the Tegra 3 and a 20x improvement over Tegra 2 chips. Oddly enough, in spite of Nvidia’s graphics prowess, Tegra chips never featured world-beating graphics. This time around they could, thanks to the new 72-core GPU. The GPU will be able to cope with 2560×1600 screens at 120Hz, but it could also take on 4K resolutions, although details are still sketchy. At this point 4K support could only be relevant for next-generation smart TVs, with a huge price tag.
As far as other features go, Tegra 4 brings support for USB 3.0 and DDR3L dual-channel memory. The leak does not mention LTE support.
Tegra 4 will have to take on the likes of Samsung’s upcoming Exynos 5440, which should also debut in early 2013. Nvidia was first to market with a quad-core A9 chip, but this time around it will have to face off against the new Exynos and A15 quad-cores from other vendors.
Nvidia is expected to showcase the new chip at CES and we’ll be there to check it out.
AMD Offers More Radeon Chips
AMD has announced four Radeon HD 8000M series GPU chips sporting its latest Graphics Core Next (GCN) architecture.
AMD’s GCN architecture made its first appearance in the firm’s ultra high-end mobile chips, however next month’s CES show will see the firm show off laptops featuring four Radeon HD 8000M series chips. The firm’s four Radeon HD 8000M chips are pitched at the mainstream and gaming laptop markets, though the company said that Asus already has a laptop announced that will use the chips in an ‘ultrathin’ design.
AMD’s Radeon HD 8000M series sees the firm split three chips with the same number of stream processors and memory clock speeds that scale up to 1.25GHz but differentiated by their core speeds. The firm’s Radeon HD 8500M, Radeon HD 8600M and Radeon HD 8700M all have 384 stream processors but are clocked up to 650MHz, 775MHz and between 650MHz and 850MHz, respectively.
Topping AMD’s present range is the Radeon HD 8800M, which has 640 stream processors and is clocked at between 650MHz and 700MHz, while its GDDR5 memory is also clocked at 1.25GHz. All of the firm’s chips, by virtue of being based on the GCN architecture, support DirectX 11.1.
AMD said it will launch three more chips in the Radeon HD 8000M series in the second quarter of 2013. According to the firm’s roadmap, two of those chips will sit above the Radeon HD 8800M in terms of performance while the third will straddle somewhere between the Radeon HD 8600M and Radeon HD 8700M.
AMD was tight-lipped on the power figures for its chips, saying that full details of its Radeon HD 8000M series chips will appear at CES, where its partners will tip up with laptops sporting the chips.
AMD Shows Piledriver Opteron
AMD’s Piledriver rollout is all but complete. With Trinity in the mobile and desktop space, new 3300 and 4300 Opterons are bringing the new architecture to data centers.
The Opteron 4300 series offers six different parts, in quad-, six- and eight-core flavours. Stock clocks range between 2.2GHz and 3.5GHz, with TDP’s in the 35W to 95W range. The cheapest Opteron 4334 costs $191, while the priciest 4332HE comes in at $501. The 3300 series consists of three quad- and eight-core SKUs, priced at $125 to $229. The pricing of both series is pretty aggressive.
But what’s next for AMD? Well things should be eerily quiet on the server front in 2013. Abu Dhabi, Seoul and Delhi/Orochi C should last throughout 2013 and even a good part of 2014. That’s when we can expect some major changes, as AMD transitions to 28nm and goes about transforming its Opteron lineup.
Future Low Power CPUs and APUs (as AMD calls them) should replace Dehli/Orochi-C in 1P and dense server markets, but AMD is also planning “Client APUs for market enablement,” and this sounds a lot like ARM-based low voltage parts. Of course, in the high end AMD plans to stick with big Steamroller cores, but mid-2014 is a long way off.