Introducing AMD’s Radeon 7000M and NVIDIA’s GeForce 600M Mobile GPUs
by Jarred Walton on December 7, 2011 2:45 AM ESTIntroducing AMD’s Radeon Mobility 7400M, 7500M, and 7600M
Traditionally AMD and NVIDIA have launched their new series of graphics products at the high-end and worked their way down. This means launching products like Cypress (Radeon HD 5800 series) and GF100 (GeForce 470/480) first, and following it up with smaller products like Redwood (Radeon HD 5600 series) and GF106 (GeForce 450) later. This owes to the fact that high-end GPUs are the flag bearers of a generation, with new architectures being built on these large chips first before lesser products are derived from them. As a consequence of building the biggest chips first, new architectures have always launched on the desktop first and have come to the mobile space later once the lesser derivatives were ready.
Today AMD will be launching their first Radeon HD 7000 series products, and in a significant deviation from normal they’re starting on the mobile side first. We’ve had some indication that this would happen—AMD chose to demo the mobile version of their 28nm GPU instead of the desktop version back in September—so this confirms AMDs intentions. However the 7000M series launching today is not quite what we had in mind.
We expected Southern Island products based on TSMC’s new HKMG 28nm process, but the fact of the matter is that TSMC’s HKMG 28nm process is running late—yields and production capacity just aren’t good enough for the production of high volume retail products for 2011. We may yet see some kind of 28nm product before the year is out so that AMD meets their stated commitment, but a complete 28nm launch in 2011 is off the table. However, AMD is concerned they need to launch new mobile products at the end of this year whether they have new GPUs or not, meaning they need to make do with what they already have.
As a consequence we’re facing another rebadging situation: the 7000M series launching today is based on AMD’s Turks and Caicos GPUs, the same GPUs that make up part of the 6000M series. Thus AMD may technically be launching the 7000 series today, but it’s the 7000 series in name only. The launch of the 28nm Southern Islands architecture will happen soon enough, but it won’t be happening today. Ignore the product number—if you wanted to see new GPUs from AMD [cue Obi-Wan], these aren’t the GPUs you’re looking for.
Naming shenanigans aside, the particularly frustrating part of all of this is that what was already a two architecture series just became a three architecture series. At the high-end we will of course see Graphics Core Next, AMD’s next-generation architecture intended to move the company away from VLIW. Meanwhile for integrated GPUs AMD’s Trinity will be using a VLIW4 design derived from AMD’s 6900 series Cayman GPU, and at the same time it stands to reason that at least some of AMD’s 7000 series will be VLIW4 in order to have something to CrossFire with Trinity. However, with the latest addition of Turks and Caicos on the 7000M, VLIW5 just got thrown into the mix and any kind of consistency just went out the window.
The one silver lining here is that even with the architecture differences, AMD’s VLIW5 architecture is still a modern architecture. Compute performance is lacking compared to the latest and greatest, but from a graphics perspective GCN, VLIW4, and VLIW5 are all Direct3D 11+ designs. The launch of Direct3D 11.1 will shake this up later next year—particularly if GCN is a D3D 11.1 design—but thankfully there won’t be a massive feature gap like we’ve seen in the past with other rebadging efforts. The graphics feature set will be mostly consistent, even if the underlying architectures are not.
With the above discussion out of the way, let’s hit the actual feature and spec sheets for the 7000M parts launching today. We’re including some information from the existing 6000M lineup as a reference point, and because we don’t have specifics on the actual models that are launching. If the past is anything to go by, we’d expect two or three models (maybe even four) in each series (e.g. the 6430M, 6450M, 6470M, and 6490M are all part of the 6400M lineup).
AMD Mobility Radeon 7400M, 7500M, and 7600M Lineup | ||||||
Radeon HD 7600M | Radeon HD 6750M | Radeon HD 7500M | Radeon HD 6630M | Radeon HD 7400M | Radeon HD 6470M | |
Core Name | Whistler Pro (?) | Whistler Pro | Whistler LT (?) | Whistler LT | Seymore XT (?) | Seymore XT |
Stream Processors | 480 | 480 | 480 | 480 | 160 | 160 |
Texture Units | 24 | 24 | 24 | 24 | 8 | 8 |
ROPs | 8 | 8 | 8 | 8 | 4 | 4 |
Core Clock | — | 600MHz | — | 485MHz | — | 700MHz |
Memory Clock | GDDR5/DDR3 | 900MHz (3.6GHz) GDDR5 | GDDR5/DDR3 | 800MHz (1.6GHz) DDR3 | GDDR5/DDR3 | 800MHz (1.6GHz) DDR3 |
Memory Bus Width | 128-bit | 128-bit | 64-bit | 128-bit | 64-bit | 64-bit |
Memory Bandwidth | — | 57.6GB/s | — | 25.6GB/s | — | 12.8GB/s |
Unfortunately, the details for the new 7000M parts are lacking right now—all we have to go on is the general configuration. We would assume the newer 7000M parts will have slightly higher clocks than the 6000M parts they’re replacing, but we really can’t say much more than that. All the current 7000M parts have the ability to support DDR3 or GDDR5 memory, and we expect to see higher-end models with GDDR5 and more budget friendly offerings with DDR3.
The most interesting (and not necessarily in a good way) series is the 7500M, which looks to straddle the ground between the entry-level 7400M and the more capable 7600M. It combines the 480 core GPU of the 7600M with the 64-bit memory interface of the 7400M. The goal is to bring prices down on mainstream hardware, but unless pricing is significantly lower the loss of memory bandwidth is going to hurt. Of course, the GDDR5 equipped models can provide the same bandwidth over a 64-bit bus as a DDR3 model with a 128-bit bus, but we’ll have to wait and see what laptops actually ship with the GPUs and how much they cost before we can come to any firm conclusions.
And that sums it up. AMD is launching 7000M GPUs today at the entry-level and midrange segments, but it’s only a rebadging of existing 6000M GPUs. We assume there will be some increased core clocks on the higher end SKUs, but overall there’s no significant change to the performance on tap.
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geddarkstorm - Monday, December 12, 2011 - link
Poor show Nvidia. Really, I'm not sure if we can blame AMD or Nvidia this round. TSMC just can't seem to get its act together and is holding everyone back, ever since the 4x nm node.mgl888 - Wednesday, December 7, 2011 - link
I totally agree. :(doesitreallymatter - Wednesday, December 7, 2011 - link
Agreed. I've been looking a lot lately at grabbing a new laptop for portable gaming so this is quite a let down.TheScottyB - Wednesday, December 7, 2011 - link
I know it's not exactly Anadtech's fault (unless they wanted to put bias in the headline)... but still makes me sad. :'-(JimmiG - Wednesday, December 7, 2011 - link
I had a Radeon 7500 ten years ago... :pJamor - Wednesday, December 7, 2011 - link
:DHey, I have 7300GT on my current work mac.
Judging by the numbers, I'm pretty much current.
geddarkstorm - Monday, December 12, 2011 - link
I don't even want to know what will happen when this hits e-bay.zero2espect - Wednesday, December 7, 2011 - link
for five seconds - or exacly 1 paragraph i was excited there....r3loaded - Wednesday, December 7, 2011 - link
Why on earth do AMD/Nvidia pull these product naming shenanigans? Even though its branding is confusing, at least Intel doesn't rebadge old stuff with new names and product numbers.KZ0 - Wednesday, December 7, 2011 - link
It doesn't make much sense. Those who are up to speed on the product numbers mostly know what they actually mean (in this case, the same as 6000), and the average user has no relation to the product numbers at all.