Overclocking

As we briefly mentioned in the introduction, the GT 240 has a 70W TDP, one we believe to be chosen specifically to get as much out of the card as possible without breaking the 75W limit of a PCIe slot. Based on the lower core and shader clock speeds of the GT 240 compared to the GT 220 (not to mention the 8800 GT) we believe it to be a reasonable assumption that the GPU is capable of a great deal more, so long as you’re willing to throw the 75W limit out the window.

There’s also the matter of the RAM. The DDR3 card is a lost cause anyhow thanks to its low performance and the fact that it’s only 10MHz below its RAM’s rated limit, but the GDDR5 cards have great potential. The Samsung chips on those cards are rated for 4000MHz effective, some 17% more than the stock speed of 3400MHz effective. If the memory bus can hold up, then that’s a freebie overclock.

So with that in mind, we took to overclocking our two GDDR5 cards: The Asus GT 240 512MB GDDR5, and the EVGA GT 240 512MB GDDR5 Superclocked.

For the Asus card, we managed to bring it to 640MHz core, 4000MHz RAM, and 1475MHz shader clock. This is an improvement of 16%, 17%, and 10% respectively. We believe that this card is actually capable of more, but we have encountered an interesting quirk with it.

When we attempt to define custom clock speeds on it, our watt meter shows the power usage of our test rig dropping by a few watts, which under normal circumstances doesn’t make any sense. We suspect that the voltage on the GPU core is being reduced when the card is overclocked, however there’s currently no way to read the GPU voltage of a GT 240, so we can’t confirm this. However it does fit all of our data, and makes even more sense once we look at the EVGA card.

For the EVGA card, we managed to bring it to 650MHz core, 4000MHz RAM, and 1700MHz shader clock. This is an improvement of 18%, 11%, and 27% respectively.

Compared to our Asus card, we do not get any anomalous power readings when attempting to overclock it, so if our GPU core voltage theory is correct, then this would explain why the two cards overclocked so differently. In any case, the significant shader overclocking should be quite beneficial in what shader-bound situations exist for the GT 240.

Crysis gives us some very interesting results when overclocked, and this data helps cement the idea that Crysis is ROP-bound on the GT 240. Compared to a stock GT 240, our overclocked Asus and EVGA cards get roughly 15% and 17% more performance. More interestingly, they’re only a few tenths of a frame apart, even though the EVGA card has its shaders clocked significantly higher.

As the performance difference almost perfectly matches the core overclock, this makes Crysis an excellent candidate for proving that the GT 240 can be ROP-bound. It’s a shame that the GT 240’s core doesn’t overclock more than the shaders, as given the ROP weakness we’d rather have more core clockspeed than shader clockspeed in our overclocking efforts.

When it comes to Far Cry 2, the significant shader speed differences finally make themselves more apparent. Our cards are still suffering from RAM limitations, but it’s still enough to get another 10% out of the EVGA card.

Finally with Battleforge we can see a full stratification of results. The overclocked EVGA card is some 19% faster than a stock GT 240, and 5% faster than the overclocked Asus. Meanwhile the Asus is 14% faster than stock, even with its more limited shader overclock.

Finally, on a quick note we’ll talk about power usage. As we mentioned previously only the EVGA card behaved correctly when overclocking – in overclocking that card we saw a 21W jump from 172W under load to 193W under load. If indeed that card is at or close to 70W under normal circumstances as NVIDIA’s specifications call for, then when overclocked it’s over 90W. It becomes readily apparent here that the clock speeds of the GT 240 were picked by NVIDIA to meet the PCIe power limit rather than the capabilities of the GPU itself.

Left 4 Dead Power, Temperature, & Noise
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  • cweinheimer - Wednesday, January 6, 2010 - link

    The review of the Asus 240 ddr5 card leads me to believe it could be a great HTPC card for HD content and some casual gaming. Does it support multichannel audio well enough?
  • AznBoi36 - Wednesday, January 6, 2010 - link

    AFAIK Nvidia cards doesn't pass audio over HDMI without a SPDIF pass-through, and as far as I can tell the GT240/220 doesn't have it.
  • MadMan007 - Wednesday, January 6, 2010 - link

    I might be fuzzy on remembering this but I could swear that some of the 'newer' NV cards (maybe the GT 210 and 220 which are similar to this card) can pass audio over the PCIe connection. So they still need an external sound source but not a connection.
  • MadMan007 - Wednesday, January 6, 2010 - link

    Ah yes here we go: http://www.anandtech.com/video/showdoc.aspx?i=3657...">http://www.anandtech.com/video/showdoc.aspx?i=3657... They support LPCM and lossy digital passthrough but not lossless digital passthrough. I assume that this GPU does as well.
  • uibo - Wednesday, January 6, 2010 - link

    Another rebadge? Nothing new here...
  • klatscho - Thursday, January 7, 2010 - link

    done already -> GTS260M/GTS360M;
    see here: http://www.semiaccurate.com/2010/01/03/nvidia-mobi...">http://www.semiaccurate.com/2010/01/03/nvidia-mobi...
  • wh3resmycar - Wednesday, January 6, 2010 - link

    goodness gracious, a 4730 eats this card alive, for breakfast, lunch, dinner etc.
  • Leyawiin - Wednesday, January 6, 2010 - link

    An HD 4730 can't beat anything if you can't find one for sale. I dare you to.

    "For the price of the GT 240 it performs too slowly, and for the performance of the GT 240 it costs too much. We cannot under any circumstances recommend buying a GT 240, there are simply better cards out there for the price."

    Its faster than an HD 4670, uses less power than a "green" edition 9800 GT, runs cool and quiet and is physically small. A great many pre-built PCs with weak power supplies would benefit not to mention its uses for HTPCs.
  • KikassAssassin - Wednesday, January 6, 2010 - link

    The funny thing about the vendors not wanting to send you cards knowing that they'd get a poor review is that this actually gives me more respect for Asus and EVGA.
  • AznBoi36 - Wednesday, January 6, 2010 - link

    Not really. ASUS is pretty big, so such a review probably won't change anything. EVGA well, we all know EVGA.

    The one that pulled out is probably a small, less well known partner. If that is the case, then it's understandable that a low performing product might hurt the brand value in the eyes of (average joe sixpack).

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