For months we’ve been waiting to take advantage of NVIDIA’s SLI and it’s looking like the tier one motherboard manufacturers will be doing their best to bring the first nForce4 SLI motherboards to market before the end of this year.  So is SLI all it’s cracked up to be? 

With a final board and final drivers, it’s time to look at SLI from a final perspective to see if NVIDIA squandered the opportunity to regain technology and performance leadership or if SLI is really everything it used to be…

How SLI Works

NVIDIA’s Scalable Link Interface (SLI) is based on the simple principle of symmetric distribution of load, meaning that the architecture depends on (and will only really work) if both GPUs get the exact same load as one another.  The nature of NVIDIA’s SLI indicates that odd combinations such as cards with different clock speeds or GPU feature sets (e.g. 16-pipes + 8 pipes) will not work; NVIDIA’s driver will run all cards at the lowest common clock speed, but there’s nothing you can do about trying to get different GPUs to work in SLI mode, the driver simply won’t let you enable the option. 

NVIDIA’s first task in assuring that the load distributed to both GPUs would be balanced and symmetrical was to equip their nForce4 SLI chipset with identical width PCI Express graphics slots.  By default, PCI Express graphics cards use a x16 slot, which features 16 PCI Express lanes offering 8GB/s of total bandwidth.  Instead of outfitting their chipsets with 16 more PCI Express lanes, NVIDIA simply allows the number of lanes to be reconfigurable to either a single x16 slot or two x8 slots, with the use of a little card on the motherboard itself.  The physical slots themselves are both x16 slots, but electrically they can be configured to be two x8 slots.  This won’t cause any compatibility issues with x16 cards, as they will just use fewer lanes for data transfers, and the real world performance impact is negligible in games, which is what NVIDIA is counting on.

The next trick is to make sure that the GPUs receive the exact same vertex data from the CPU, which is done by the CPU sending all vertex data to the primary GPU and then the primary GPU forwards it on to the secondary GPU.  Once data arrives at the primary GPU via the PCI Express bus, all GPU to GPU communication is handled via NVIDIA’s video bridge.  The video bridge is a bus that connects directly to the GPU and is used for transferring data from the frame buffer of one GPU directly to the next.  NVIDIA isn’t offering too much information on the interface, other than saying that it is capable of transferring data at up to 10GB/s.  While it is possible to have this GPU-to-GPU communication go over the PCI Express bus, NVIDIA insists that it would be silly to do so because of latency issues and bandwidth constraints, and has no plans in moving in that direction. 

NVIDIA’s driver plays an important role in maintaining symmetry in the rendering by looking at the workload and making two key decisions: 1) determining rendering method, and depending on the rendering method, 2) determining the workload split between the two GPUs. 

NVIDIA supports two main rendering methods: Alternate Frame Rendering (AFR) and Split Frame Rendering (SFR).  As the names imply, AFR has each GPU render a separate frame (e.g. GPU 1 renders all odd frames and GPU 2 renders all even frames) while SFR splits up the rendering of a single frame amongst the two GPUs.  NVIDIA’s driver does not determine whether to use AFR or SFR on the fly, instead NVIDIA’s software engineers have profiled the majority of the top 100 games and created profiles for each and every one, determining whether they should default to AFR or SFR mode in each game.  NVIDIA’s driver defaults to AFR as long as there are no dependencies between frames; for example, in some games that use slow motion special effects the game itself doesn’t clear the frame buffer and will render the next frame on top of the previous frame, alpha blending the two frames together to get the slow motion effect – in this case there is a frame to frame dependency and AFR cannot be used. 

If AFR can’t be used, the SFR is used but now the driver must determine how much of each frame to send to GPU 1 vs. GPU 2.  Since the driver can count on both GPUs being the exact same speed (see why it’s important?), it makes an educated guess on what the load split should be.  The educated guess comes through the use of a history table that stores the load each GPU was placed under for the past several frames.  Based on the outcomes stored in this history table, NVIDIA’s driver will make a prediction of what the rendering split should be between the two GPUs for future frames and will adjust the load factor accordingly.  This should all sound very familiar to anyone who has ever heard of a branch predictor in a CPU, and just like a branch predictor there is a penalty for incorrectly predicting.  If NVIDIA’s driver predicts incorrectly one GPU will finish its rendering task much sooner than the other, giving it nothing to do but wait until the other GPU is done, thus reducing the overall performance potential of the SLI setup. 

By now you can begin to see where the performance benefits of SLI come into play.  With twice the GPU rendering power you effectively have a 32-pipe 6800GT with twice as much memory bandwidth if you pair two of the cards together, a configuration that you won’t see in a single card for quite some time.  At the same time you should see that SLI does have a little bit of overhead associated with it, and at lower CPU-bound resolutions you can expect SLI to be slightly slower than a single card.  Then again, you don’t buy an SLI setup to run at lower resolutions. 

Once both GPUs have completed their rendering, whether in AFR or SFR mode, the secondary GPU sends its frame buffer to the primary GPU via NVIDIA’s video bridge.  The important thing here is that the data is sent digitally, so there’s no loss in image quality as a result of SLI.  The primary GPU recombines the data and outputs the final completed frame (or frames) through its outputs.  Sounds simple enough, right?

Surprisingly enough, throughout all of our testing, we didn’t encounter any rendering issues in SLI mode.  NVIDIA insists that they have tested quite a few of the top 100 games to ensure that there aren’t any issues with SLI mode and it does seem that they’ve done a good job with their driver.  If the driver hasn’t been profiled with a game, it will default to single-GPU mode to avoid any rendering issues, but the user can always force SLI mode if they wish. 

ASUS’ A8N-SLI Deluxe
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  • bob661 - Tuesday, November 23, 2004 - link

    I find it absolutely amazing that they were CPU limited using a 4000+.
  • Avalon - Tuesday, November 23, 2004 - link

    Anand, you keep saying that a 6600GT in SLI outperforms a 6800U in Doom 3 and HL2, but your benchmarks look partially wrong to be concluding that. It seems it would be more correct if you said that a 6600GT in SLI outperforms a single 6800U in lower res, lower bandwidth situations (such as 12x10 with low AA/AF, or less), but in high res and bandwidth situations (such as 16x12 with a bit of AA/AF), the 6600GT doesn't appear to be able to keep up at all with a single 6800U. Buyers will need to take that into consideration, to make sure that the video setup they will be purchasing will meet their needs specifically.
  • lifeguard1999 - Tuesday, November 23, 2004 - link

    One simple question: Are there Linux drivers that support SLI?

    Historically, people have talked about a setup either being CPU bound or GPU bound. That is no longer the case. With SLI it appears that the limiting factor is data. Simply put, there is not enough data for the dual GPU's to render. This is a common problem in parallel programming, especially when you are talking about thousands of processors. By increasing the amount of data for the GPU to render, one can see that SLI performs better.

    For example, at 1600x1200, the increase is only 20% going from simgle 6800U to 6800U-SLI. Now by increasing the amount of work for the GPU to perform (1600x1200 with 4X AA and 8X AF), the performance increases 48% going from simgle 6800U to 6800U-SLI.

    What this means is that game developers can now have Low, Medium, High, Ultra, and Ultra-SLI rendering modes in their games. :) What a nice "problem" to have.

    In my line of work (Scientific Visualization) where we can have models up to hundreds of millions of polygons, SLI is going to cause a revolution in how we do business.
  • Alphafox78 - Tuesday, November 23, 2004 - link

    wow, if I my LCD went to 1600x1200 SLI might help me slightly... I wonder what % of people actually play with the res that high. at 1280x1024 with my 6800GT AGP overclocked to ultra speeds with 4x aa and 8x anistropic I noticed no slowdowns in the game, smooth as can be for 95% of the game.
  • GhandiInstinct - Tuesday, November 23, 2004 - link

    Yes, great performance increase, but its too expensive to afford for most people. Unless you're 3 generations behind and need a new system chances are you'll buy this but not for people that have stabe up to par systems. This just isn't a wise investment when ATI's multi-gpu technology is right around the corner which doesn't limit you to the inferior Nvidia.
  • OriginalReaper - Tuesday, November 23, 2004 - link

    I dont see why 8xAA wasn't used. It's clearly not GPU limited at 4xAA 8xAF.
  • blckgrffn - Tuesday, November 23, 2004 - link

    I am glad that NVIDIAs drivers seem fairly mature already, hopefully they will have a new release out by the time SLI becomes "mainstream". It would have been awful had this real release been tainted by a lot of driver issues. So, the real point here is that if you really want performance, you have to drop $800 at some point? Wow. Two 6600GTs already are not the optimum choice for 1600*1200, so a 6800GT is what should be purchased now if you are really all about fps. Hmmm. I suppose I do know people who would like the incremental upgrade path, but I am not one of them when it comes to graphics cards - I sell my "old" one just before the new product cycle really starts appearing in quanities on the shelves and go for the new technology, and I am guessing that many who have $800 to spend on graphics cards would do something similar. I am jealous of those who will be able to spring for a big-power SLI setup out of pocket...
  • dak - Tuesday, November 23, 2004 - link

    I'm curious, is it possible to use two PCI-X video cards in these SLI boards, but not have them configured SLI? I have some applications that would benefit greatly from having two high end dual output cards in a single computer.....
  • shabby - Tuesday, November 23, 2004 - link

    Great article Anand, can you mention which psu you used to feed those hungry 6800 ultra's?
  • Aquila76 - Tuesday, November 23, 2004 - link

    Looks like SLI'd 6800GT's are a great option for now. I'm greatly awaiting ATI's Multi-Rendering products now. Can't wait for that benchmark setup!

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