The Awesome Potential of Fully Programmable Graphics

Certainly we can't judge the applicability and impact Larrabee will have until we see how it handles real-world applications. But we absolutely cannot write off such a giant as Intel when they throw their chips into the pot. Some of the current graphics hardware establishment have tried to suggest to us that Intel is not in touch with the current development community and that the only reason some developers are excited about the extensive low level programmability of Larrabee is because they are nostalgic for the old days of graphics programming where it was all about the software renderer.

I don't think anyone is under the illusion that DirectX and OpenGL performance are irrelevant for Larrabee. If Intel fails at delivering equivalent or greater price/performance in games and applications that use these programming APIs, then no matter how well the hardware could be used for any software engine it will fail. But the potential to customize every part of the rendering pipeline, the capability of supporting a software renderer with the same level of performance as if the hardware was customized to it, adds a level of value to the development community that will absolutely blow away anything NVIDIA or AMD can currently (or will for the foreseeable future) offer.

Re-opening the door for Tim Sweeney, John Carmack, Michael Abrash, and other pioneers and visionaries in the field of 3D graphics to once again have the freedom to take a piece of hardware that can offer the kind of data parallel speed that has heretofore been limited to the GPU and literally do anything they want with it is something to be excited about. Limited much less by the physical design of the hardware to once again only be limited by the performance of any given segment of code could help speed up the transition from SIGGRAPH to games. Larrabee could help create a new wellspring of research, experimentation and techniques for real-time graphics, the likes of which have not been seen since the mid-to-late 1990s.

We have absolutely been seeing the current graphics hardware giants move toward more flexibility and programmability. But if Intel is able to effectively leap-frog their slow trudge toward true general purpose programming DX version by DX version, we will see the end of an era where games are feature limited by hardware. No longer will we need new hardware to handle a new DX version with new techniques and effects: we would only need a driver update to add support for the new API. The only obstacle to running games using future APIs will be performance. The only reason to upgrade in the future will be speed. It will be a different world, altogether different than anything we've known or experienced before yet incredibly similar to the roots from which the industry was born.

It is an exciting time to be in the field of computer graphics.

A Tribute to Michael Abrash: The ISA Thread and Data Management: It's Time to Blow Your Mind
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  • phaxmohdem - Monday, August 4, 2008 - link

    Can your mom play Crysis? *burn*
  • JonnyDough - Monday, August 4, 2008 - link

    I suppose she could but I don't think she would want to. Why do you care anyway? Have some sort of weird fetish with moms playing video games or are you just looking for another woman to relate to?

    Ooooh, burn!
  • Griswold - Monday, August 4, 2008 - link

    He is looking for the one playing his mom, I think.
  • bigboxes - Monday, August 4, 2008 - link

    Yup. He worded it incorrectly. It should have read, "but can it play your mom?" :p
  • Tilmitt - Monday, August 4, 2008 - link

    I'm really disappointed that Intel isn't building a regular GPU. I doubt that bolting a load of unoptimised x86 cores together is going to be able to perform anywhere near as well as a GPU built from the ground up to accelerate graphics, given equal die sizes.
  • JKflipflop98 - Monday, August 4, 2008 - link

    WTF? Did you read the article?
  • Zoomer - Sunday, August 10, 2008 - link

    He had a point. More programmable == more transistors. Can't escape from that fact.

    Given equal number of transistors, running the same program, a more programmable solution will always be crushed by fixed function processors.
  • JonnyDough - Monday, August 4, 2008 - link

    I was wondering that too. This is obviously a push towards a smaller Centrino type package. Imagine a powerful CPU that can push graphics too. At some point this will save a lot of battery juice in a notebook computer, along with space. It may not be able to play games, but I'm pretty sure it will make for some great basic laptops someday that can run video. Not all college kids and overseas marines want to play video games. Some just want to watch clips of their family back home.
  • rudolphna - Monday, August 4, 2008 - link

    as interesting and cool as this sounds, this is even more bad news for AMD, who was finally making up for lost ground. granted, its still probably 2 years away, and hopefully AMD will be back to its old self (Athlon64 era) They are finally getting products that can actually compete. Another challenger, especially from its biggest rival-Intel- cannot be good for them.
  • bigboxes - Monday, August 4, 2008 - link

    What are you talking about? It's been nothing but good news for AMD lately. Sure, let Intel sink a lot of $$ into graphics. Sounds like a win for AMD (in a roundabout way). It's like AMD investing into a graphics maker (ATI) instead of concentrating on what makes them great. Most of the Intel supporters were all over AMD for making that decision. Turn this around and watch Intel invest heavily into graphics and it's a grand slam. I guess it's all about perspective. :)

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