How AMD’s Dynamic Switchable Graphics Works

One of the things we discussed with AMD was the technical details of their dynamic switchable graphics. At a high level, things might appear similar to NVIDIA’s Optimus, but dig a little deeper and you start to find differences. To recap how switchable graphics works, let’s start at the top.

The original switchable graphics technologies used the IGP and dedicated GPU as discrete devices. Both were connected to the necessary display outputs, with some hardware muxes that could select the active device. This requires more cost in the motherboard, and switching results in a blanking of the display as one device is deactivated and the other comes online. In the earliest implementations, you had to reboot when switching, and the system would start with either the IGP or dGPU active. Later implementations moved to software controlled muxes and dynamic switching, which required Windows Vista to work properly (since the IGP driver would unload, the GPU driver would start, and then the display content would activate on the GPU).

NVIDIA’s Optimus changes things quite a bit, as there are no longer any muxes. The display ports are always linked to the IGP output, and NVIDIA’s drivers simply look for calls to applications that the dedicated GPU can help accelerate. When they detect such an application—and the user can add their own custom apps—the drivers wake up the GPU and send it the rendering commands. The GPU does all of the necessary work, and then the result is copied directly into the IGP framebuffer, omitting any flickering or other undesirable effects as the IGP is constantly connected to the display output. The GPU can wake up in a fraction of a second, and when it’s no longer needed it will power down completely. NVIDIA even demonstrated this by removing the dGPU from a test system while it was powered on. The only catch is that the drivers need to have some knowledge of the applications/games in order to know when to use the GPU.

The details of AMD’s Dynamic Switchable Graphics are similar in practice to Optimus, but with a few differences. First, AMD always has both the IGP and GPU driver loaded, with a proxy driver funneling commands to the appropriate GPU. Where NVIDIA is able to completely power off the GPU under Optimus, AMD has modified their GPUs so that the PCI-E bus is isolated from the rest of the chip. Now when the GPU isn’t needed, everything powers down except for that PCI-E connection, so Windows doesn’t try to load/unload the GPU driver. The PCI-E link state gets retained, and a small amount (around 50mW) is needed to keep the PCI-E state active, but as far as Windows knows the GPU is still ready and waiting for input. AMD also informed us that their new GPUs use link adapter mode instead of multi adapter mode, and that this plays a role in their dynamic switchable graphics, but we didn’t receive any additional details on this subject.

As far as getting content from the dGPU to the display, the IGP always maintains a connection to the display ports, and it appears AMD’s drivers copy data over the PCI-E bus to the IGP framebuffer, similar to Optimus. Where things get interesting is that there are no muxes in AMD’s dynamic switchable graphics implementations, but there is still an option to fall back to manual switching. For this mode, AMD is able to use the display output ports of the Intel IGP, so their GPU doesn’t need separate output ports (e.g. with muxes). With the VAIO C, both dynamic and manual switching are supported, and you can set the mode as appropriate. Here are some static shots of the relevant AMD Catalyst Control Center screens.

In terms of the drivers, right now you get a single large driver package that includes a proxy driver, an Intel IGP driver, and AMD’s GPU driver all rolled into one. Long-term, AMD says they have plans to make their GPU driver fully independent from Intel’s IGP driver. They say this will only require some packaging updates and that they should make this change some time in 2012, but for now they continue to offer a monolithic driver package. OEMs apparently get this driver on a monthly basis (or can at least request it), but it’s up to the OEMs to validate the driver for their platform and release it to the public.

In the case of non-switchable graphics, AMD has a monthly driver update that we refer to as “reference drivers” that is publicly available. At present, you download a utility that will check your laptop GPU ID to see if the laptop is officially supported by the reference driver. Right now certain OEMs like to maintain control of the drivers so the AMD utility will refuse to download the full driver suite. In such cases, users have to wait for the manufacturers to roll out updates (Sony, Toshiba, and Panasonic all fall into this category). In the past, we have been able to download the reference driver using a “sanctioned” laptop (e.g. something from Acer), and we were able to install the reference driver on a non-sanctioned laptop. However, this does not work with switchable graphics laptops; you need the monolithic driver package for such systems.

That takes care of the high-level overview of how AMD’s Dynamic Switchable Graphics works, as well as a few other related items. The details are a little light, but that at least gives us an introduction to AMD’s current switchable graphics solutions. With the hardware and software discussions out of the way, let’s turn to our gaming results first and see how the two solutions and GPUs compare in performance as well as compatibility.

Switchable Graphics - Meet the Contenders Medium Detail Gaming Comparison
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  • powchie - Tuesday, September 20, 2011 - link

    No battery life comparison? Reply
  • DanNeely - Tuesday, September 20, 2011 - link

    This is just a GPU switching comparison, not a pair of full laptop reviews. Reply
  • khimera2000 - Tuesday, September 20, 2011 - link

    Its an Intel GPU switching comparison. They didnt compare AMD switching with AMD CPU. I think thats an important detail.

    This articles scope is alot more narrow then the title implies.
    Reply
  • JarredWalton - Tuesday, September 20, 2011 - link

    This article is over 8000 words and I thought that was long enough. Battery life numbers are posted above if you're interested. Really, the battery life comparison is more of a look at how well Acer and Sony are optimizing their BIOS and drivers for mobile use, and both do quite well (though Sony leads in terms of efficiency, even with a larger LCD). Reply
  • Stuka87 - Tuesday, September 20, 2011 - link

    I have not yet used AMD's switchable setup. Being that its so new, I am not surprised that it is not yet perfect. nVidia took a while to work out their kinks as well.

    Although with that said, I still have an issue with my Precision (Optimus with i7-2620M and Quadro 1000). I use a Matrox Triple Head to go to drive three displays with a Dell Docking Station. This being when I am undocked running off battery, it runs on the Intel graphics. When I dock, I tries to switch to the Quadro. However, I end up with a black screen because its trying to use the resolution of the built in screen that Intel was driving before docking. The work around is to always hibernate before docking, this makes it re-initialize the hardware when it comes out of hibernation.

    But typically, the switch works fine. And I get amazing battery life out of this machine.
    Reply
  • medi01 - Sunday, September 25, 2011 - link

    "I have not yet used AMD's switchable setup. Being that its so new, I am not surprised that it is not yet perfect"

    Especially on nVidia supplied notebook. ;)
    Reply
  • JarredWalton - Tuesday, September 27, 2011 - link

    Which you can buy from Sony. It was unopened, with absolutely no tampering by anyone other than myself -- and the same goes for the Acer. If anyone can point me to a better AMD + Intel laptop with dynamic switchable graphics (Vostro 3450 with HD 6470M? I don't think so...), let me know. I've also talked several times with AMD and asked them to provide me with new drivers and/or a different laptop. We'll see if they can do so, because honestly I'd love for AMD to have a more compelling offering in this area. Reply
  • mercblue281 - Tuesday, September 20, 2011 - link

    Can you guys please have someone proofread before posting?
    "...and they haven’t been able to get use one yet..."
    In the FIRST paragraph? Really?
    Come on! I know the internet has dumbed down the general population's grammar and spelling but you guys are better than this.
    Reply
  • jeremyshaw - Tuesday, September 20, 2011 - link

    on the first page, you mention "HD6700m line is rebadged HD5600m part"

    which isn't true, since the HD6700m line has 480 shaders, and GDDR5, both of which are lacking from the HD5600m.
    Reply
  • overseer - Tuesday, September 20, 2011 - link

    "If an OEM were willing to commit the resources necessary to at least do bi-monthly driver updates for switchable graphics, that would also be sufficient, but they’d need a proven track record of doing so—something no laptop manufacturer has ever achieved."

    Can't say I agree with you here.

    I have an Acer Aspire 4745G (i3 330M + HD5650M, manually switchable) that I bought in Apr. 2010. Over a year and half Acer has been offering the GPU driver updates for it (once in a quarter or 2 months AFAICR).

    Check the 4745G downloads on Acer's support page and you'll find the latest AMD VGA driver update which came out on 2011/09/07.
    http://us.acer.com/ac/en/US/content/drivers
    Reply

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