Barts: The Next Evolution of Cypress

At the heart of today’s new cards is Barts, the first member of AMD’s Northern Island GPUs. As we quickly hinted at earlier, Barts is a very direct descendant of Cypress. This is both a product of design, and a product of consequences.

It should come as no surprise that AMD was originally looking to produce what would be the Northern Islands family on TSMC’s 32nm process; as originally scheduled this would line up with the launch window AMD wanted, and half-node shrinks are easier for them than trying to do a full-node shrink. Unfortunately the 32nm process quickly became doomed for a number of reasons.

Economically, per-transistor it was going to be more expensive than the 40nm process, which is a big problem when you’re trying to make an economical chip like Barts. Technologically, 32nm was following TSMC’s troubled 40nm process; TSMC’s troubles ended up being AMD’s troubles when they launched the 5800 series last year, as yields were low and wafers were few, right at a time where AMD needed every chip they could get to capitalize on their lead over NVIDIA. 32nm never reached completion so we can’t really talk about yields or such, but it’s sufficient to say that TSMC had their hands full fixing 40nm and bringing up 28nm without also worrying about 32nm.

Ultimately 32nm was canceled around November of last year. But even before that AMD made the hard choice to take a hard turn to the left and move what would become Barts to 40nm. As a result AMD had to make some sacrifices and design choices to make Barts possible on 40nm, and to make it to market in a short period of time.

For these reasons, architecturally Barts is very much a rebalanced Cypress, and with the exception of a few key changes we could talk about Barts in the same way we talked about Juniper (the 5700 series) last year.


Click to enlarge

Barts continues AMD’s DirectX 11 legacy, building upon what they’ve already achieved with Cypress. At the SPU level, like Cypress and every DX10 AMD design before it continues to use AMD’s VLIW5 design. 5 stream processors – the w, x, y, z, and t units – work together with a branch unit and a set of GPRs to process instructions. The 4 simple SPs can work together to process 4 FP32 MADs per clock, while the t unit can either do FP32 math like the other units or handle special functions such as a transcendental. Here is a breakdown of what a single Barts SPU can do in a single clock cycle:

  • 4 32-bit FP MAD per clock
  • 4 24-bit Int MUL or ADD per clock
  • SFU : 1 32-bit FP MAD per clock

Compared to Cypress, you’ll note that FP64 performance is not quoted, and this isn’t a mistake. Barts isn’t meant to be a high-end product (that would be the 6900 series) so FP64 has been shown the door in order to bring the size of the GPU down. AMD is still a very gaming-centric company versus NVIDIA’s philosophy of GPU computing everywhere, so this makes sense for AMD’s position, while NVIDIA’s comparable products still offer FP64 if only for development purposes.

Above the SPs and SPUs, we have the SIMD. This remains unchanged from Cypress, with 80 SPs making up a SIMD. The L1 cache and number of texture units per SIMD remains at 16KB L1 texture, 8KB L1 compute, and 4 texture units per SIMD.

At the macro level AMD maintains the same 32 ROP design (which combined with Barts’ higher clocks, actually gives it an advantage over Cypress). Attached to the ROPs are AMD’s L2 cache and memory controllers; there are 4 128KB blocks of L2 cache (for a total of 512KB L2) and 4 64bit memory controllers that give Barts a 256bit memory bus.

Barts is not just a simple Cypress derivative however. For non-gaming/compute uses, UVD and the display controller have both been overhauled. Meanwhile for gaming Barts did receive one important upgrade: an enhanced tessellation unit. AMD has responded to NVIDIA’s prodding about tessellation at least in part, equipping Barts with a tessellation unit that in the best-case scenario can double their tessellation performance compared to Cypress. AMD has a whole manifesto on tessellation that we’ll get in to, but for now we’ll work with the following chart:

AMD has chosen to focus on tessellation performance at lower tessellation factors, as they believe these are the most important factors for gaming purposes. From their own testing the advantage over Cypress approaches 2x between factors 6 and 10, while being closer to a 1.5x increase before that and after that up to factor 13 or so. At the highest tessellation factors Barts’ tessellation unit falls to performance roughly in line with Cypress’, squeezing out a small advantage due to the 6870’s higher clockspeed. Ultimately this means tessellation performance is improved on AMD products at lower tessellation factors, but AMD’s tessellation performance is still going to more-or-less collapse at high factors when they’re doing an extreme amount of triangle subdivision.

So with all of this said, Barts ends up being 25% smaller than Cypress, but in terms of performance we’ve found it to only be 7% slower when comparing the 6870 to the 5870. How AMD accomplished this is the rebalancing we mentioned earlier.

Based on AMD’s design decisions and our performance data, it would appear that Cypress has more computing/shading power than it necessarily needs. True, Barts is slower, but it’s a bit slower and a lot smaller. AMD’s various compute ratios, such as compute:geometry and compute:rasterization would appear to be less than ideal on Cypress. So Barts changes the ratios.

Compared to Cypress and factoring in 6870/5870 clockspeeds, Barts has about 75% of the compute/shader/texture power of Cypress. However it has more rasterization, tessellation, and ROP power than Cypress; or in other words Barts is less of a compute/shader GPU and a bit more of a traditional rasterizing GPU with a dash of tessellation thrown in. Even in the worst case scenarios from our testing the drop-off at 1920x1200 is only 13% compared to Cypress/5870, so while Cypress had a great deal of compute capabilities, it’s clearly difficult to make extremely effective use of it even on the most shader-heavy games of today.

However it’s worth noting that internally AMD was throwing around 2 designs for Barts: a 16 SIMD (1280 SP) 16 ROP design, and a 14 SIMD (1120 SP) 32 ROP design that they ultimately went with. The 14/32 design was faster, but only by 2%. This along with the ease of porting the design from Cypress made it the right choice for AMD, but it also means that Cypress/Barts is not exclusively bound on the shader/texture side or the ROP/raster side.

Along with selectively reducing functional blocks from Cypress and removing FP64 support, AMD made one other major change to improve efficiency for Barts: they’re using Redwood’s memory controller. In the past we’ve talked about the inherent complexities of driving GDDR5 at high speeds, but until now we’ve never known just how complex it is. It turns out that Cypress’s memory controller is nearly twice as big as Redwood’s! By reducing their desired memory speeds from 4.8GHz to 4.2GHz, AMD was able to reduce the size of their memory controller by nearly 50%. Admittedly we don’t know just how much space this design choice saved AMD, but from our discussions with them it’s clearly significant. And it also perfectly highlights just how hard it is to drive GDDR5 at 5GHz and beyond, and why both AMD and NVIDIA cited their memory controllers as some of their biggest issues when bringing up Cypress and GF100 respectively.

Ultimately all of these efficiency changes are necessary for AMD to continue to compete in the GPU market, particularly in the face of NVIDIA and the GF104 GPU powering the GTX 460. Case in point, in the previous quarter AMD’s graphics division only made $1mil in profit. While Barts was in design years before that quarter, the situation still succinctly showcases why it’s important to target each market segment with an appropriate GPU; harvested GPUs are only a stop-gap solution, in the end purposely crippling good GPUs is a good way to cripple a company’ s gross margin.

Index Seeing the Future: DisplayPort 1.2
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  • Parhel - Friday, October 22, 2010 - link

    That's the truth. And even worse is that, after this review, I can no longer trust Anandtech as an unbiased review site. Along with the cards arriving on their doorsteps, NVidia tells the review sites which settings to use for both their own cards and AMD's. If the FTW edition card was included, I have to assume that the 'special' settings were used as well, which invalidates this whole article. Cementing that position is that HardOCP, I site I trust 100% but which is not one of my favorites, shows the new AMD cards performing MUCH better than we see them on Anandtech. Reply
  • spigzone - Friday, October 22, 2010 - link

    I doubt Nvidia even tried to roll Kyle.

    What's more pathetic than someone knowing they are being rolled and trying to rationalize why it's okay as it's happening as if to say 'see, I'm TELLING you I'm getting rolled, so I DO have integrity ... you can see that, can't you???

    Thank god for the Kyles of the world to provide integrity benchmarks.
    Reply
  • Lolimaster - Sunday, October 24, 2010 - link

    Is not even unbiased towards AMD cpu's. This explain everything.

    Trully PATHETIC
    Reply
  • Will Robinson - Friday, October 22, 2010 - link

    It actually doesn't matter that much.After reading all the reviews out its pretty clear both the 6850 and 6870 are damn good cards and have some great new features.
    You can run 6 screens off one card,each at different resolutions,refresh rate and orientation.
    That's pretty awesome.
    NVDA obviously prefers a highly overclocked card to be used in the benchmarking but its pretty clear who the winners are.
    Crossfire scaling and performance looks very nice....these new cards the new mid range champs.
    Reply
  • Manu64 - Friday, October 22, 2010 - link

    So far i've always valued Anandtech as a neutral PC site, now i'm losing my faith... Whole article written in favor of NVDA because of an heavily overclocked card? You are losing your standards :-( Reply
  • Jamahl - Friday, October 22, 2010 - link

    I must agree. The whole front page bangs on about how Anandtech never uses overclocked cards blah blah, then throws it out the window.

    Anandtech hits an all time low.
    Reply
  • kmmatney - Friday, October 22, 2010 - link

    I don't mind an overclocked card - its a card you can buy right now on NewEgg, so its a valid option. HOWEVER, it would have been much better to at least give an odea of how the new ATi cards overclock. Reply
  • mac2j - Friday, October 22, 2010 - link

    I also don't think the 460 (OC) belonged in this article.

    Compare reference to reference .

    Compare the custom 6850s to custom 450s/460s.

    Compare the custom 6870s which are coming later to OC 460s/470s.

    Are the 6950/6970 going to have to beat the Point of View TGT GTX480 beast or the N480GTX Lightning from MSI? Cards built on limited numbers of hand-selected chips and custom overclocked?

    It's pretty ridiculous what you did ... and didn't even mention the possible future advantages of these cards thanks to them having Displayport 1.2 support.
    Reply
  • mindbomb - Friday, October 22, 2010 - link

    I disagree.
    When the gtx 460 1gb OC models price is around the price of a regular 6870, you can compare them.
    Reply
  • bji - Friday, October 22, 2010 - link

    Finally some reasonable logic in this panties-in-a-bunch fest. Reply

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