Eyefinity

Somewhere around 2006 - 2007 ATI was working on the overall specifications for what would eventually turn into the RV870 GPU. These GPUs are designed by combining the views of ATI's engineers with the demands of the developers, end-users and OEMs. In the case of Eyefinity, the initial demand came directly from the OEMs.

ATI was working on the mobile version of its RV870 architecture and realized that it had a number of DisplayPort (DP) outputs at the request of OEMs. The OEMs wanted up to six DP outputs from the GPU, but with only two active at a time. The six came from two for internal panel use (if an OEM wanted to do a dual-monitor notebook, which has happened since), two for external outputs (one DP and one DVI/VGA/HDMI for example), and two for passing through to a docking station. Again, only two had to be active at once so the GPU only had six sets of DP lanes but the display engines to drive two simultaneously.

ATI looked at the effort required to enable all six outputs at the same time and made it so, thus the RV870 GPU can output to a maximum of six displays at the same time. Not all cards support this as you first need to have the requisite number of display outputs on the card itself. The standard Radeon HD 5870 can drive three outputs simultaneously: any combination of the DVI and HDMI ports for up to 2 monitors, and a DisplayPort output independent of DVI/HDMI. Later this year you'll see a version of the card with six mini-DisplayPort outputs for driving six monitors.

It's not just hardware, there's a software component as well. The Radeon HD 5000 series driver allows you to combine all of these display outputs into one single large surface, visible to Windows and your games as a single display with tremendous resolution.

I set up a group of three Dell 24" displays (U2410s). This isn't exactly what Eyefinity was designed for since each display costs $600, but the point is that you could group three $200 1920 x 1080 panels together and potentially have a more immersive gaming experience (for less money) than a single 30" panel.

For our Eyefinity tests I chose to use every single type of output on the card, that's one DVI, one HDMI and one DisplayPort:

With all three outputs connected, Windows defaults to cloning the display across all monitors. Going into ATI's Catalyst Control Center lets you configure your Eyefinity groups:

With three displays connected I could create a single 1x3 or 3x1 arrangement of displays. I also had the ability to rotate the displays first so they were in portrait mode.

You can create smaller groups, although the ability to do so disappeared after I created my first Eyefinity setup (even after deleting it and trying to recreate it). Once you've selected the type of Eyefinity display you'd like to create, the driver will make a guess as to the arrangement of your panels.

If it guessed correctly, just click Yes and you're good to go. Otherwise ATI has a handy way of determining the location of your monitors:

With the software side taken care of, you now have a Single Large Surface as ATI likes to call it. The display appears as one contiguous panel with a ridiculous resolution to the OS and all applications/games:


Three 24" panels in a row give us 5760 x 1200

The screenshot above should clue you into the first problem with an Eyefinity setup: aspect ratio. While the Windows desktop simply expands to provide you with more screen real estate, some games may not increase how much you can see - they may just stretch the viewport to fill all of the horizontal resolution. The resolution is correctly listed in Batman Arkham Asylum, but the aspect ratio is not (5760:1200 !~ 16:9). In these situations my Eyefinity setup made me feel downright sick; the weird stretching of characters as they moved towards the outer edges of my vision left me feeling ill.


Dispite Oblivion's support for ultra wide aspect ratio gaming, by default the game stretches to occupy all horizontal resolution

Other games have their own quirks. Resident Evil 5 correctly identified the resolution but appeared to maintain a 16:9 aspect ratio without stretching. In other words, while my display was only 1200 pixels high, the game rendered as if it were 3240 pixels high and only fit what it could onto my screens. This resulted in unusable menus and a game that wasn't actually playable once you got into it.

Games with pre-rendered cutscenes generally don't mesh well with Eyefinity either. In fact, anything that's not rendered on the fly tends to only occupy the middle portion of the screens. Game menus are a perfect example of this:

There are other issues with Eyefinity that go beyond just properly taking advantage of the resolution. While the three-monitor setup pictured above is great for games, it's not ideal in Windows. You'd want your main screen to be the one in the center, however since it's a single large display your start menu would actually appear on the leftmost panel. The same applies to games that have a HUD located in the lower left or lower right corners of the display. In Oblivion your health, magic and endurance bars all appear in the lower left, which in the case above means that the far left corner of the left panel is where you have to look for your vitals. Given that each panel is nearly two feet wide, that's a pretty far distance to look.

The biggest issue that everyone worried about was bezel thickness hurting the experience. To be honest, bezel thickness was only an issue for me when I oriented the monitors in portrait mode. Sitting close to an array of wide enough panels, the bezel thickness isn't that big of a deal. Which brings me to the next point: immersion.

The game that sold me on Eyefinity was actually one that I don't play: World of Warcraft. The game handled the ultra wide resolution perfectly, it didn't stretch any content, it just expanded my viewport. With the left and right displays tilted inwards slightly, WoW was more immersive. It's not so much that I could see what was going on around me, but that whenever I moved forward I I had the game world in more of my peripheral vision than I usually do. Running through a field felt more like running through a field, since there was more field in my vision. It's the only example where I actually felt like this was the first step towards the holy grail of creating the Holodeck. The effect was pretty impressive, although costly given that I only really attained it in a single game.

Before using Eyefinity for myself I thought I would hate the bezel thickness of the Dell U2410 monitors and I felt that the experience wouldn't be any more engaging. I was wrong on both counts, but I was also wrong to assume that all games would just work perfectly. Out of the four that I tried, only WoW worked flawlessly - the rest either had issues rendering at the unusually wide resolution or simply stretched the content and didn't give me as much additional viewspace to really make the feature useful. Will this all change given that in six months ATI's entire graphics lineup will support three displays? I'd say that's more than likely. The last company to attempt something similar was Matrox and it unfortunately didn't have the graphics horsepower to back it up.

The Radeon HD 5870 itself is fast enough to render many games at 5760 x 1200 even at full detail settings. I managed 48 fps in World of Warcraft and a staggering 66 fps in Batman Arkham Asylum without AA enabled. It's absolutely playable.

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  • SiliconDoc - Sunday, September 27, 2009 - link

    I'll be watching you for the very same conclusion when NVidia launches soft and paper.
    I'll bet ten thousand bucks you don't say it.
    I'll bet a duplicate amount you're a red rager fan, otherwise YOU'D BE HONEST, NOT HOSTILE !
  • rennya - Thursday, September 24, 2009 - link

    It may be paper-launch in the US, but here somewhere in South East Asia I can already grab a Powercolor 5870 1GB if I so desire. Powercolor is quite aggresive here promoting their ATI 5xxx wares just like Sapphire does when the 4xxx series comes out.
  • SiliconDoc - Thursday, September 24, 2009 - link

    I believe you. I've also seen various flavors of cards not available here in the USA, banned by the import export deals and global market and manufacturer and vendor controls and the powers that be, and it doesn't surprise me when it goes the other way.
    Congratulations on actually having a non fake launch.
  • Spoelie - Wednesday, September 23, 2009 - link

    "The engine allows for complete hardware offload of all H.264, MPEG-2 and VC1 decoding".

    This has afaik never been true for any previous card of ATi, and I doubt it has been tested to be true this time as well.

    I have detailed this problem several times before in the comment section and never got a reply, so I'll summarize: ATi's UVD only decodes level 4 AVC (i.e. bluray) streams, if you have a stream with >4 reference frames, you're out of luck. NVIDIA does not have this limitation.
  • lopri - Wednesday, September 23, 2009 - link

    Yeah and my GTX 280 has to run full throttle (3D frequency) just to play a 720p content and temp climbs the same as if it were a 3D game. Yeah it can decode some *underground* clips from Japan, big deal. Oh and it does that for only H.264. No VC-1 love there. I am sure you'd think that is not a big deal, but the same applies to those funky clips with 13+ reference frames. Not a big deal. Especially when AMD can decode all 3 major codecs effortlessly (performance 2D frequency instead of 3D frequency)
  • rennya - Thursday, September 24, 2009 - link

    G98 GPUs (like 8400GS discrete or 9400 chipset) or GT220/G210 can also do MPEG2/VC-1/AVC video decoding.

    The GPU doesn't have to run full throttle either, as long as you stick to the 18x.xx drivers.
  • SJD - Wednesday, September 23, 2009 - link

    Ryan,

    Great article, but there is an inconsistancy. You say that thanks to there only being 2 TDMS controllers, you can't use both DVI connectors at the same time as the HDMI output for three displays, but then go onto say later that you can use the DVI(x2), DP and HDMI in any combination to drive 3 displays. Which is correct?

    Also, can you play HDCP protected content (a Blu-Ray disc for example) over a panel connected to a Display Port connector?

    Otherwise, thanks for the review!
  • Ryan Smith - Wednesday, September 23, 2009 - link

    It's the former that is correct: you can only drive two TDMS devices. The article has been corrected.

    And DP supports HDCP, so yes, protected content will play over DP.
  • SJD - Friday, September 25, 2009 - link

    Thanks for clarifying that Ryan - It confirms what I thought.. :-)
  • chowmanga - Wednesday, September 23, 2009 - link

    I'd like to see a benchmark using an amd cpu. I think it was the Athlon II 620 article that pointed out how Nvidia hardware ran better on AMD cpus and AMD/ATI cards ran better on Intel cpus. It would be interesting to see if the 5870 stacks up against Nv's current gen with other setups.

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