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Redefining TDP With PowerTune

One of our fundamental benchmarks is FurMark, oZone3D’s handy GPU load testing tool. The furry donut can generate a workload in excess of anything any game or GPGPU application can do, giving us an excellent way to establish a worst case scenario for power usage, GPU temperatures, and cooler noise. The fact that it was worse than any game/application has ruffled both AMD and NVIDIA’s feathers however, as it’s been known to kill older cards and otherwise make their lives more difficult, leading to the two companies labeling the program a “power virus”.

FurMark is just one symptom of a larger issue however, and that’s TDP. Compared to their CPU counterparts at only 140W, video cards are power monsters. The ATX specification allows for PCIe cards to draw up to 300W, and we quite regularly surpass that when FurMark is in use. Things get even dicier on laptops and all-in-one computers, where compact spaces and small batteries limit how much power a GPU can draw and how much heat can effectively be dissipated. For these reasons products need to be designed to meet a certain TDP; in the case of desktop cards we saw products such as the Radeon HD 5970 where it had sub-5870 clocks to meet the 300W TDP (with easy overvolting controls to make up for it), and in laptop parts we routinely see products with many disabled functional units and low clocks to meet those particularly low TDP requirements.

Although we see both AMD and NVIDIA surpass their official TDP on FurMark, it’s never by very much. After all TDP defines the thermal limits of a system, so if you regularly surpass those limits it can lead to overwhelming the cooling and ultimately risking system damage. It’s because of FurMark and other scenarios that AMD claims that they have to set their products’ performance lower than they’d like. Call of Duty, Crysis, The Sims 3, and other games aren’t necessarily causing video cards to draw power in excess of their TDP, but the need to cover the edge cases like FurMark does. As a result AMD has to plan around applications and games that cause a high level of power draw, setting their performance levels low enough that these edge cases don’t lead to the GPU regularly surpassing its TDP.

This ultimately leads to a concept similar to dynamic range, defined by Wikipedia as: “the ratio between the largest and smallest possible values of a changeable quantity.” We typically use dynamic range when talking about audio and video, referring to the range between quiet and loud sounds, and dark and light imagery respectively. However power draw is quite similar in concept, with a variety of games and applications leading to a variety of loads on the GPU. Furthermore while dynamic range is generally a good thing for audio and video, it’s generally a bad thing for desktop GPU usage – low power utilization on a GPU-bound game means that there’s plenty of headroom for bumping up clocks and voltages to improve the performance of that game. Going back to our earlier example however, a GPU can’t be set this high under normal conditions, otherwise FurMark and similar applications will push the GPU well past TDP.

The answer to the dynamic power range problem is to have variable clockspeeds; set the clocks low to keep power usage down on power-demanding games, and set the clocks high on power-light games. In fact we already have this in the CPU world, where Intel and AMD use their turbo modes to achieve this. If there’s enough thermal and power headroom, these processors can increase their clockspeeds by upwards of several steps. This allows AMD and Intel to not only offer processors that are overall faster on average, but it lets them specifically focus on improving single-threaded performance by pushing 1 core well above its normal clockspeeds when it’s the only core in use.

It was only a matter of time until this kind of scheme came to the GPU world, and that time is here. Earlier this year we saw NVIDIA lay the groundwork with the GTX 500 series, where they implemented external power monitoring hardware for the purpose of identifying and slowing down FurMark and OCCT; however that’s as far as they went, capping only FurMark and OCCT. With Cayman and the 6900 series AMD is going to take this to the next step with a technology called PowerTune.

PowerTune is a power containment technology, designed to allow AMD to contain the power consumption of their GPUs to a pre-determined value. In essence it’s Turbo in reverse: instead of having a low base clockspeed and higher turbo multipliers, AMD is setting a high base clockspeed and letting PowerTune cap GPU performance when it exceeds AMD’s TDP. The net result is that AMD can reduce the dynamic power range of their GPUs by setting high clockspeeds at high voltages to maximize performance, and then letting PowerTune cap GPU performance for the edge cases that cause GPU power consumption to exceed AMD’s preset value.

Advancing Primitives: Dual Graphics Engines & New ROPs PowerTune, Cont
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  • fausto412 - Wednesday, December 15, 2010 - link

    6970 just 4 to 6 fps faster in Bad Company 2 than my 5870? WTF!

    not worth the upgrade. what a lame ass successor.
    Reply
  • Kibbles - Wednesday, December 15, 2010 - link

    It's 7% faster at 1920 and 9% faster at 2560. BC2 obviously doesn't need the extra GPU power at 1680.

    I wouldn't call it weak, but this card certainly isn't the clear winner that the 5870 was.
    Reply
  • fausto412 - Wednesday, December 15, 2010 - link

    its weak if i was expecting a response to the gtx580 to upgrade to.

    may as well stay with my 5870.
    Reply
  • ClownPuncher - Wednesday, December 15, 2010 - link

    For now... But who really bases their purchase on one game anymore? It looks like 10.12 or 11.1 drivers will help performance a good amount. Reply
  • fausto412 - Wednesday, December 15, 2010 - link

    I base my performance on 1 game...because it is a very taxing game and my #1 game right now. Reply
  • MeanBruce - Wednesday, December 15, 2010 - link

    Yup, dude I heard the AMD 7000 series might make an early appearance next July, with the die shrink @28nm you might want to wait and pick up a 7970! Reply
  • fausto412 - Wednesday, December 15, 2010 - link

    that's what i'm considering now. need to upgrade for 30% more performance than 5870 for it to make sense. Reply
  • Stuka87 - Wednesday, December 15, 2010 - link

    The game is CPU limited at lower resolutions. BC2 is known for being more CPU bound than GPU bound.

    But I was hoping for a larger jump over the previous cards :/
    Reply
  • fausto412 - Wednesday, December 15, 2010 - link

    I understand BFBC2 is more cpu bound. But in this testing Anandtech did they use a TOP TOP TOP of the line cpu so that rules that out as a bottleneck. Reply
  • Belard - Wednesday, December 15, 2010 - link

    Yeah... at least the model numbers didn't make things confusing!

    In some benchmarks, the 6950 is faster than your 5870... but it would have made far more sense to call these 6850/6870 or even 6830/6850..

    AMD screwed up with the new names...
    Reply

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