All GPUs are Created Equal: Say Goodbye to Cap Bits

DX9 allows quite a bit of flexibility in implementation. ATI and NVIDIA are free to do things a little differently as they see fit. In order for software to understand how fully the hardware supports the required and optional features of DX9, the hardware has specific capability bits set that describe its features. Microsoft has eliminated this feature from DX10. Software written for DX10 will not have to worry about checking cap bits for DX10 hardware. This is due to the fact that Microsoft has been much more specific about the features required to support DX10. There will still be differences in implementation, optimizations, performance characteristics and the like, but all DX10 hardware will have the same basic feature set to draw from. On the down side, hardware vendors who want to add custom features will have to rely on OpenGL (which allows custom vendor specific extensions to the API).

This will make things much easier for game developers, as they won't have to worry about not having a specific feature around to use for an effect or rendering technique. This is also another step in the direction of eliminating the need for multiple GPU specific rendering paths. We can't say that developers won't write different code for different hardware, because we don't know anything about the differences in performance characteristics at this point. We do know from past experience (with NV30) that even something as simple as the order in which code is executed can make a significant difference in performance. We would like to think that issues like this won't present themselves, but we'll have to wait and see when more hardware and software comes along.

In order to avoid programming issues like the initial NV30 + SM2.0 problems, Microsoft will only allow HLSL (High Level Shader Language) to be used with DX10. This means no low level shader ASM optimization, but it also means that each graphics hardware maker will have full control over how shaders get compiled. There is certainly a trade off here, but this should help keep developers from inadvertently doing something that severely hampers performance on any given architecture.

If DirectX 10 sounds like a great boon to software developers, the fact that DX10 will only be supported in Windows Vista is certain to curb enthusiasm. Other than Vista-only games, all developers will still be required to support DX9 in order to keep the installed Windows XP user base as part of their target market. Some developers have actually made comments to the effect that DX10 is more of a headache than a help right now, and that won't change until they are able to abandon support of older hardware. Hopefully, the DX10 performance and feature benefits will be enough to encourage people to upgrade sooner rather than later, but if the past is any indication it could be several years before DX9 is abandoned by the majority of users and developers.

Unified Shaders

Unified shaders aren't actually a feature as much as a result of DX10. This is a small point that seems to get lost in the shuffle, but Microsoft doesn't require a specific implementation for DX10 compliance: they simply made a better implementation more feasible. Until now, building a GPU with unified shaders would not been have desirable, let alone practical, but Shader Model 4.0 lends itself well to this approach.

We haven't seen unified shaders yet because we didn't need or want them. Up to SM2.0, vertex shaders had a higher precision requirement than pixel shaders. While 32bit floating point was required for compliance at the vertex level, 24bit was all that was needed for full precision in pixel shaders. Partial precision hints were added to accommodate 16bit pixel shaders on NVIDIA hardware. It wouldn't have been practical at the launch of DX9 to require that all shader units be 32bit. The same goes for including pixel oriented features in the vertex shader hardware: the API didn't support it, so there was no need to include it. The R300 GPU is 218mm^2 with only 107 Million transistors, and adding any more complexity than necessary would have certainly produced a much larger chip than they would have been able to handle on the 150nm process employed at the time. These days, we are able to do much more in the same space: ATI's latest chip, the RV570, is about 230mm^2 and has 330 Million transistors.

It is much cheaper, easier, and more efficient to build hardware to fit exactly what is required of each step in the rendering pipeline. This is as true with older hardware as it is with G80. Now that DX10 calls for full 32bit in each shader and nearly the same functionality for both vertex and pixel shader units, it doesn't make sense to duplicate and segregate the hardware. Now that functionality can't be excluded from either vertex or pixel processing, hardware designers are optimizing their parts to make the most efficient use of space. It just so happens that the best way to do this and meet the requirements of DX10 is with unified shaders.

GPUs get Virtual Memory Shader Model 4.0 Enhancements
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  • yyrkoon - Thursday, November 9, 2006 - link

    If you're using Firefox, get, and install the extension "flashblock". Just did this myself today, tired of all the *animated* adds bothering me while reading articles.

    Sorry AT guys, but we've had this discussion before, and its realy annoying.
  • JarredWalton - Thursday, November 9, 2006 - link

    Do you want to be able for us to continue as a site? Because ads support us. Anyway, his problem is related to not seeing images, so your comment about blocking ads via flashblock is completely off topic.
  • yyrkoon - Thursday, November 9, 2006 - link

    Of course I want you guys to continue on as a site, just wish it were possible without annoying flashing adds in a section where I'm trying to concentrate on the article.

    As for the off topic part, yeah, my bad, I mis-read the full post (bad habit). Feel free to edit or remove that post of mine :)
  • archcommus - Thursday, November 9, 2006 - link

    What browser are you using?
  • falc0ne - Thursday, November 9, 2006 - link

    firefox 2.0
  • JarredWalton - Thursday, November 9, 2006 - link

    If Firefox, I know there's an option to block images not on the originating website. In this case, images come from image.anandtech.com while the article is on www.anandtech.com, so that my be the cause of your problems. IE7 and other browsers might have something similar, though I haven't ever looked. Other than that, perhaps some firewall or ad blocking software is to blame - it might be getting false positives?
  • archcommus - Thursday, November 9, 2006 - link

    Wow to Anandtech - another amazing, incredibly in-depth article. It is so obvious this site is run by dedicated professionals who have degrees in these fields versus most other review sites where the authors just take pictures of the product and run some benches. Articles like this keep the AT reader base very very strong.

    Also wow to the G80, obviously an amazing card. My question, is 450W the PSU requirement for the GTX only or for both the GTX and GTS? I ask because I currently have a 400W PSU and am wondering if it will be sufficient for next-gen DX10 class hardware, and I know I would not be buying the highest model card. I also only have one HDD and one optical drive in my system.

    Yet another wow goes out to the R&D monetary investment - $475 million! It's amazing that that amount is even acceptable to nVidia, I can't believe the sales of such a high end, enthusiast-targeted card are great enough to warrant that.
  • JarredWalton - Thursday, November 9, 2006 - link

    Sales of the lower end parts which will be based off G80 are what make it worthwhile, I would guess. As for PSU, I think that 450W is for the GTX, and more is probably a safe bet (550W would be in line with a high-end system these days, although 400W ought to suffice if it's a good quality 400W). You can see that the GTX tops out at just under 300W average system power draw with an X6800, so if you use an E6600 and don't overclock, a decent 400W ought to work. The GTX tops out around 260W average with the X6800, so theoretically even a decent 350W will work fine. Just remember to upgrade the PSU if you ever add other components.
  • photoguy99 - Thursday, November 9, 2006 - link

    I just wanted to second that thought -

    AT articles have incredible quality and depth at this point - you guys are doing great work.

    It's actually getting embarrasing for some of your competing sites, I browsed the Tom's article and it had so much fluff and retread I had to stop.

    Please don't forget the effort is noticed and appreciated.
  • shabby - Wednesday, November 8, 2006 - link

    It wasnt mentioned in the review, but whats the purpose of the 2nd sli connector?

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