DirectCompute, OpenCL, and the Future of CAL

As a journalist, GPGPU stuff is one of the more frustrating things to cover. The concept is great, but the execution makes it difficult to accurately cover, exacerbated by the fact that until now AMD and NVIDIA each had separate APIs. OpenCL and DirectCompute will unify things, but software will be slow to arrive.

As it stands, neither AMD nor NVIDIA have a complete OpenCL implementation that's shipping to end-users for Windows or Linux. NVIDIA has OpenCL working on the 8-series and later on Mac OS X Snow Leopard, and AMD has it working under the same OS for the 4800 series, but for obvious reasons we can’t test a 5870 in a Mac. As such it won’t be until later this year that we see either side get OpenCL up and running under Windows. Both NVIDIA and AMD have development versions that they're letting developers play with, and both have submitted implementations to Khronos, so hopefully we’ll have something soon.

It’s also worth noting that OpenCL is based around DirectX 10 hardware, so even after someone finally ships an implementation we’re likely to see a new version in short order. AMD is already talking about OpenCL 1.1, which would add support for the hardware features that they have from DirectX 11, such as append/consume buffers and atomic operations.

DirectCompute is in comparatively better shape. NVIDIA already supports it on their DX10 hardware, and the beta drivers we’re using for the 5870 support it on the 5000 series. The missing link at this point is AMD’s DX10 hardware; even the beta drivers we’re using don’t support it on the 2000, 3000, or 4000 series. From what we hear the final Catalyst 9.10 drivers will deliver this feature.

Going forward, one specific issue for DirectCompute development will be that there are three levels of DirectCompute, derived from DX10 (4.0), DX10.1 (4.1), and DX11 (5.0) hardware. The higher the version the more advanced the features, with DirectCompute 5.0 in particular being a big jump as it’s the first hardware generation designed with DirectCompute in mind. Among other notable differences, it’s the first version to offer double precision floating point support and atomic operations.

AMD is convinced that developers should and will target DirectCompute 5.0 due to its feature set, but we’re not sold on the idea. To say that there’s a “lot” of DX10 hardware out there is a gross understatement, and all of that hardware is capable of supporting at a minimum DirectCompute 4.0. Certainly DirectCompute 5.0 is the better API to use, but the first developers testing the waters may end up starting with DirectCompute 4.0. Releasing something written in DirectCompute 5.0 right now won’t do developers much good at the moment due to the low quantity of hardware out there that can support it.

With that in mind, there’s not much of a software situation to speak about when it comes to DirectCompute right now. Cyberlink demoed a version of PowerDirector using DirectCompute for rendering effects, but it’s the same story as most DX11 games: later this year. For AMD there isn’t as much of an incentive to push non-game software as fast or as hard as DX11 games, so we’re expecting any non-game software utilizing DirectCompute to be slow to materialize.

Given that DirectCompute is the only common GPGPU API that is currently working on both vendors’ cards, we wanted to try to use it as the basis of a proper GPGPU comparison. We did get something that would accomplish the task, unfortunately it was an NVIDIA tech demo. We have decided to run it anyhow as it’s quite literally the only thing we have right now that uses DirectCompute, but please take an appropriately sized quantity of salt – it’s not really a fair test.

NVIDIA’s ocean demo is a fairly simple proof of concept program that uses DirectCompute to run Fast Fourier transforms directly on the GPU for better performance. The FFTs in turn are used to generate the wave data, forming the wave action seen on screen as part of the ocean. This is a DirectCompute 4.0 program, as it’s intended to run on NVIDIA’s DX10 hardware.

The 5870 has no problem running the program, and in spite of whatever home field advantage that may exist for NVIDIA it easily outperforms the GTX 285. Things get a little more crazy once we start using SLI/Crossfire; the 5870 picks up speed, but the GTX 295 ends up being slower than the GTX 285. As it’s only a tech demo this shouldn’t be dwelt on too much beyond the fact that it’s proof that DirectCompute is indeed working on the 5800 series.

Wrapping things up, one of the last GPGPU projects AMD presented at their press event was a GPU implementation of Bullet Physics, an open source physics simulation library. Although they’ll never admit it, AMD is probably getting tired of being beaten over the head by NVIDIA and PhysX; Bullet Physics is AMD’s proof that they can do physics too. However we don’t expect it to go anywhere given its very low penetration in existing games and the amount of trouble NVIDIA has had in getting developers to use anything besides Havok. Our expectations for GPGPU physics remains the same: the unification will come from a middleware vendor selling a commercial physics package. If it’s not Havok, then it will be someone else.

Finally, while AMD is hitting the ground running for OpenCL and DirectCompute, their older APIs are being left behind as AMD has chosen to focus all future efforts on OpenCL and DirectCompute. Brook+, AMD’s high level language, has been put out to pasture as a Sourceforge project. Compute Abstract Layer (CAL) lives on since it’s what AMD’s OpenCL support is built upon, however it’s not going to see any further public development with the interface frozen at the current 1.4 standard. AMD is discouraging any CAL development in favor of OpenCL, although it’s likely the High Performance Computing (HPC) crowd will continue to use it in conjunction with AMD’s FireStream cards to squeeze every bit of performance out of AMD’s hardware.

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  • Xajel - Wednesday, September 23, 2009 - link

    Ryan,

    I've send a detailed solution for this problem to you ( Aero disabled when running and video with UVD accerelation ), but the basic for all readers here is just install HydraVision & Avivo Video Convertor packages, and this should fix the problem...
  • Ryan Smith - Wednesday, September 23, 2009 - link

    Just so we're clear, Basic mode is only being triggered when HDCP is being used to protect the content. It is not being triggered by just using the UVD with regular/unprotected content.
  • biigfoot - Wednesday, September 23, 2009 - link

    Well, I've been looking forward to reading your review of this new card for a little while now, especially since the realistic sounding specs leaked out a week or so ago. My first honest impression is that it looks like it'll be a little bit longer till the drivers mature and the game developers figure out some creative ways to bring the processor up to its full potential, but in the mean time, it looks like I'd have to agree with everyone's conclusion that even 150+GB/s isn't enough memory bandwidth for the beast, I'm sure it was a calculated compromise while the design was still on the drawing board. Unfortunately, increasing the bus isn't as easy as stapling on a couple more memory controllers, they probably would've had to resort back to a wider ring bus and they've already been down that road. (R600 anyone) Already knowing how much more die area and power would've been required to execute such a design probably made the decision rather easy to stick with the tested 4 channel GDDR5 setup that worked so well for the RV770 and RV790. As for how much a 6 or 8 channel (384/512 bit) memory controller setup would've improved performance, we'll probably never know; as awesome as it would be, I don't foresee BoFox's idea of ATI pulling a fast one on nVidia and the rest of us by releasing a 512-bit derivative in short order, but crazier things have happened.
  • biigfoot - Wednesday, September 23, 2009 - link

    Oh, I also noticed, they must of known that the new memory controller topology wasn't going to cut it all the time judging from all the cache augmentations performed. But like i said, given time, I'm sure they'll optimize the drivers to take advantage of all the new functionality, I'm betting that 90% of the low level functions are still handled identically as they were in the last generations architecture and it will take a while till all the hardware optimizations like the cache upgrades are fully realized.
  • piroroadkill - Wednesday, September 23, 2009 - link

    The single most disappointing thing about this card is the noise and heat.

    Sapphire have been coming out with some great coolers recently, in their VAPOR-X line. Why doesn't ATI stop using the same dustbuster cooler in a new shiny cover, and create a much, much quieter cooler, so the rest of us don't have to wait for a million OEM variations until there's one with a good cooler (or fuck about and swap the cooler ourselves, but unless you have one that covers the GPU AND the RAM chips, forget it. Those pathetic little sticky pad RAM sinks suck total donkey balls.)
  • Kaleid - Wednesday, September 23, 2009 - link

    Already showing up...

    http://www.techpowerup.com/104447/Sapphire_HD_5870...">http://www.techpowerup.com/104447/Sapphire_HD_5870...

    It will be possible to cool the card quietly...
  • Dante80 - Wednesday, September 23, 2009 - link

    the answer you are looking for is simple. Another, more elaborate cooler would raise prices more, and vendors don't like that. Remember what happened to the more expensive stock cooler for the 4770? ...;)
  • Cookie Monster - Wednesday, September 23, 2009 - link

    When running dual/multi monitors with past generation cards, the cards would always run at full 3d clocks or else face instabilities, screen corruptions etc. So even if the cards are at idle, it would never ramp down to the 2d clocks to save power, rending impressive low idle power consumption numbers useless (especially on the GTX200 series cards).

    Now with RV870 has this problem been fixed?
  • Ryan Smith - Wednesday, September 23, 2009 - link

    That's a good question, and something we didn't test. Unfortunately we're at IDF right now, so it's not something we can test at this moment, either.
  • Cookie Monster - Wednesday, September 23, 2009 - link

    It would be awesome if you guys do get some free time to test it out. Would be really appreciated! :)

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