Investigations into Socket 939 Athlon 64 Overclocking
by Jarred Walton on October 3, 2005 4:35 PM EST- Posted in
- CPUs
Doom 3 Performance
More so than any other game that we tested, Doom 3 is going to be held up by the X800 Pro. With the engine being heavily optimized for NVIDIA's architecture - or simply being a better fit for OpenGL and shadows, if you prefer - performance scaling drops off rapidly with increasing resolutions. Whether future Doom 3 engine licensees will exhibit similar results is up for debate, Call of Duty and Wolfenstein: Enemy Territory, for example, don't correlate directly with Quake 3 performance. However, we expect NVIDIA to maintain some advantage over ATI in Quake 4 and Quake Wars.
At 640x480 without antialiasing, Doom 3 still manages to gain 43% more performance. That drops off quickly to 34% at 800x600 and 18% at 1024x768. Consider our 1024x768 4xAA results to be something of a reality check. It doesn't matter how fast your CPU is if your bottleneck is somewhere else. The 1% increase between 1.8 GHz and 2.7 GHz performance is testament to this fact. Higher quality RAM, once again, buys about 5% more performance relative to budget RAM, though the 2T timing at 9x300 is 12% slower than performance RAM. It's also slower than the value RAM at 9x289, which is a trend seen in BF2 and several other tests.
More so than any other game that we tested, Doom 3 is going to be held up by the X800 Pro. With the engine being heavily optimized for NVIDIA's architecture - or simply being a better fit for OpenGL and shadows, if you prefer - performance scaling drops off rapidly with increasing resolutions. Whether future Doom 3 engine licensees will exhibit similar results is up for debate, Call of Duty and Wolfenstein: Enemy Territory, for example, don't correlate directly with Quake 3 performance. However, we expect NVIDIA to maintain some advantage over ATI in Quake 4 and Quake Wars.
At 640x480 without antialiasing, Doom 3 still manages to gain 43% more performance. That drops off quickly to 34% at 800x600 and 18% at 1024x768. Consider our 1024x768 4xAA results to be something of a reality check. It doesn't matter how fast your CPU is if your bottleneck is somewhere else. The 1% increase between 1.8 GHz and 2.7 GHz performance is testament to this fact. Higher quality RAM, once again, buys about 5% more performance relative to budget RAM, though the 2T timing at 9x300 is 12% slower than performance RAM. It's also slower than the value RAM at 9x289, which is a trend seen in BF2 and several other tests.
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JarredWalton - Monday, October 3, 2005 - link
It's tough to say how things will pan out long-term. 1.650V seems reasonably safe to me, but I wouldn't do it without a better HSF than the stock model. The 1.850V settings made me quite nervous, though. If you can get your CPU to run at 1.600V instead of 1.650V, that would be better, I think. There's also a possibility that slowing down your RAM slightly might help the CPU run at lower voltages. I'd sacrifice 5% to run what I consider a "safer" overclock, though really the thought of frying a $140 CPU doesn't concern me too much. That's less than any car repair I've had to make....cryptonomicon - Monday, October 3, 2005 - link
well for most overclocks a reasonable ("safe") increase of voltage is 10-15%. however that is just a guideline, it may be more or less. there is sort of a way to find out: if you work on overclocking to the maximum of your chip while scaling the voltage, you will eventually hit a place where you have to increase the voltage dramatically just to get up the next FSB bump. for example if you are at 2500mhz and 1.6v, then it takes 1.75v just to get to 2600mhz, then you have hit that boundary and should go back down immediatly. when the voltage to cpu speed ratio is scaling consistently, then things are fine. but once the voltage required becomes blatently unbalanced, that is the logical time to stop... unless you have no concern for the longetivity of the chip.Ecmaster76 - Monday, October 3, 2005 - link
Finally goaded me into overclocking my P4 2.4c. I had been planning for a while but never bothered too.So I got bored and set the FSB to 250mhz (I went for my goal on my first try!) with a 5:4 (still DDR400) memory ratio. It works great at stock cooling + stock voltage. I will have to do some long term analysis of stability but since I am building a new system before the years end I don't really care if it catches on fire. Well as long as it doesn't melt some of my newer nerd toys that are attached to it.
lifeguard1999 - Monday, October 3, 2005 - link
I am running an AMD Athlon 64 3000+ Processor (Venice) @ 2.7 GHz, stock HSF; 1.55V Vcore; DFI LANPARTY nF4 SLI-DR. It was cool seeing you run something similar to my setup. I run value RAM and it seems that I made the right choice for me (giving up at most 5% performance). You ran at Vcores much higher than I do, so it was interesting to see the CPU handle that.The only thing I would add to this article is a paragraph mentioning temperatures that the CPU experienced.
mongoosesRawesome - Monday, October 3, 2005 - link
yes, i second that. temps at those volts using your cpu cooler as well as with maybe a few other coolers would be very helpful. also, if you could do a few tests using different coolers to see when temps hold you back.JarredWalton - Monday, October 3, 2005 - link
I've got some tests planned for cooling in the near future. I'll be looking at CPU temps for stock (2.0 GHz) as well as 270x10 with 1.750V. I've even got a few other things planned. My particular chip wouldn't POST at more than 2.6 GHz without at least 1.650V, but that will vary from chip to chip. The XP-90 never even got warm to the touch, though, which is pretty impressive. Even with an X2 chip, it barely gets above room temperature. (The core is of course hotter, but not substantially so I don't think.)tayhimself - Tuesday, October 4, 2005 - link
Good article, but your Vcore seems to scale up with most of the increments in speed? Did you HAVE TO raise the vcore? Usually you can leave the vcore until you really have to start pushing. Comments?JarredWalton - Tuesday, October 4, 2005 - link
2.20GHz was fine with default 1.300. 2.40GHz may have been okay; increasing the Vcore to 1.40V seemed to stabilize it a bit, though it may not have been completely necessary. 2.60GHz would POST with 1.450V, but loading XP locked up. 1.550V seemed mostly stable, but a few benchmarks would crash. 2.70GHz definitely needed at least 1.650V, and bumping it up a bit higher seemed to stabilize it once again. 2.80GHz was questionable at best even at 1.850V with the current cooling configuration. It wouldn't load XP at 2.80GHz at 1.750V, though.JarredWalton - Tuesday, October 4, 2005 - link
My memory on the voltages might be a bit off. Personal experimentation will probably be the best approach. I think I might have erred on the high side of required voltage. Still, past a certain point you'll usually need to scale voltage a bit with each bump in CPU speed. When it starts scaling faster - i.e. .1V more to get from 2700 to 2800 MHz - then you're hitting the limits of the CPU and should probably back off a bit and call it good.tayhimself - Tuesday, October 4, 2005 - link
Thanks a lot for your replies. Looks like there is a fair bit of overclocking even if you dont increase the Vcore too much to help save power/noise etc.Cheers