Overclocking and Final Words

Our Core 2 Duo E6750 sample was a particularly great overclocker, at stock voltage with a retail Intel heatsink/fan we were able to run the system at 3.68GHz (460 x 8.0):

With further voltage tweaking slightly faster speeds should be possible, but at default voltage we were quite impressed. Whether or not this is a testament to the maturity of Intel's 65nm process has yet to be seen, but this next batch of Core 2 processors that will be appearing in the summer could be great overclockers. It's not a tremendous surprise given that Intel's 65nm process should be quite mature at this point, as Intel is on the cusp of introducing its first 45nm processors. Intel has always been strong in the manufacturing department, but now it's more like the good ol' Pentium/Pentium II/Pentium III days of overclocking because it is shipping CPUs we actually want to overclock.

While we await the official release of Intel's 1333MHz FSB CPUs, we now know not to expect much from them, which is why we're expecting to see a price-parity with current 1066MHz chips from Intel. It looks like the big performance increase for Intel this year will come from Penryn, and if reports from Taiwan are to be believed, the performance crown may not change hands this year after all.

Our brief comparison between AMD and Intel at the $180 price point continues to illustrate how it's not architecture, but pricing that can actually determine a recommendation at this point. While AMD is still competing using its original K8 architecture, its pricing is such that its CPUs can easily stand up to Intel at price points less than $300. Once Penryn hits, the same may no longer hold true but for now you can't go wrong with either manufacturer; it's not a bad time to be buying a CPU.

Gaming Performance
Comments Locked

42 Comments

View All Comments

  • Anand Lal Shimpi - Monday, June 25, 2007 - link

    Hmm that link didn't work out, lemme try again:

    http://www.anandtech.com/cpuchipsets/intel/showdoc...">http://www.anandtech.com/cpuchipsets/intel/showdoc...
  • ncage - Monday, June 25, 2007 - link

    Ummm everyone wants a new cpu tested for their specific circumstance. Testing the encoding performance you talk of would be a very big task in itself. Think of all the possibilites that could be tested with all the different encoders and even a specific version of an encoder could make a big difference (how parallel the code is in that version). It would be an impossible task for them to make everyone happy. I think anandtech does exactly what they need to do. They test a variety of applications and give you a sense for "General" performance of the cpu. If you look at any cpu review people will say...why didn't you do this test why didn't you do that test. I would just be happy with what you get.

    Ncage
  • 7oby - Monday, June 25, 2007 - link

    quote:

    even a specific version of an encoder could make a big difference (how parallel the code is in that version). It would be an impossible task for them to make everyone happy.


    definitely, however as a starting point, take these:

    http://www.tomshardware.com/2007/03/26/the_gigaher...">http://www.tomshardware.com/2007/03/26/the_gigaher...
    http://hardware.thgweb.de/2007/04/09/intel_core_2_...">http://hardware.thgweb.de/2007/04/09/in...reme_qx6...
    http://www23.tomshardware.com/cpu.html">http://www23.tomshardware.com/cpu.html
    [sorry, all more or less from the same site]

    Depending on their degree of parallelizm the de-/encoder applications take different advantages of multi cores. Some do not yet scale beyond dual cores. Still a quad core can make perfectly sense:

    . even if your particular video encoder can benefit only from two cores, then just throw two videos simultaneously at the quad core. It will scale ;-)
    . while encoding there are still resources left for other tasks you might want to do while encoding
    . its very likely that future versions of current encoding codecs will scale better with multi cores as soon as those processors become more mainstream and the demand for this requirement raises. Besides - look just as an illustrating example at OpenMP: It may be hard at the beginning to parallize your application, but going from 2 way to 4 way is not that hard anymore. In the simple case of OpenMP you get it for free. Image and video processing scales particularly good with # of processors: you either partition the image into blocks or distribute the different encoding stages.

    7oby
  • TA152H - Monday, June 25, 2007 - link

    Ummmm, I couldn't care less how well it performs on a quad-core, since I have absolutely no intention of buying one in the near future. Most people here will do fine with a dual-core, and the market share for quad cores is very low by comparison. Thus, he picked something that makes sense since it will target more people.
  • TA152H - Monday, June 25, 2007 - link

    First of all, why use DDR2 on a 1333 FSB processor? Wouldn't it have been more interesting to show these processors running on DDR3 running at 1333 MHz, instead of DDR2-800 ? It looks like the memory was run at only 800 MHz in both cases, so it's not at all surprising the results weren't enormous, actually it's pretty surprising that the results were as much better than they are. If you ran them each with appropriate memory, you'd probably see the reason for moving to 1333 FSB a lot more clearly. It surely wasn't to run memory at 800 MHz with it.

    I'm not criticizing doing a DDR2 800 MHz review because it does show something, but making it the only tests misses the point. It's more interesting academically, so should be included, but in terms of real world use, it's not very revealing. I suspect most people wanting these processors will not want to shackle it with DDR2-800 MHz memory. And before cost is brought up, keep in mind the processor will not be out for a few months, and the cost of DDR3 right now is not what it will cost then. Clearly it should fall closer to DDR2 as time goes along, so I think it's worth testing to see the true performance increase of the platform.
  • coldpower27 - Monday, June 25, 2007 - link

    I don't see why, as Dual Channel DDR2-800 would provide enough bandwidth to feed a theoretical FSB1600 processor let alone FSB1333. I don't see the point in having memory in a 2:1 ratio with the FSB as DDR3-1333 would be providing exactly 2x the memory bandwidth the processor can take advantage of.

    As well this processor is coming out in a single month, not a few months, so I wouldn't at all expect DDR3 prices to drop all that much.

    I expect DDR3 to provide some performance benefits, but nothing earth shattering compared to the DDR2 as your providing more memory bandwidth then the FSB can handle.

  • mostlyprudent - Monday, June 25, 2007 - link

    I seem to recall an article here on Anandtech.com about 6-8 months ago that demonstrated a "noticable" performance improvement going from DDR2-667 to DDR2-800 on the Core 2 Duo line of processors. I also wonder if we would see a noticable performance improvement on native 1333 FSB CPU running faster DDR2 or DDR3.
  • coldpower27 - Monday, June 25, 2007 - link

    http://images.anandtech.com/reviews/memory/ddr2/20...">http://images.anandtech.com/reviews/memory/ddr2/20...

    I don't see much of a noticable improvement here on Core 2, Core just hasn't shown much signs if any of being dramatically affected by memory speed.
  • TA152H - Monday, June 25, 2007 - link

    Are you serious?

    Did you read the initial article they wrote on the P35? Then the follow up which showed how much of it was because of the increase in the memory speed. Just about every article on DDR3 shows that it needs higher clock speeds to show real performance. Yet, it wouldn't make any difference here? That makes no sense at all. Besides, if you're getting an improvement by just increasing the FSB and not the memory, that's very interesting indeed. With increased memory speed, you're going to see a pronounced improvement. I'm still surprised there's as much a difference as there was with the same exact memory running at the same speed. Faster DDR3 memory should blow show why Intel went to 1333. DDR2 800 won't.
  • coldpower27 - Wednesday, June 27, 2007 - link

    I am dead serious I don't see much of a performance improvement on the whole. Anyway the results provided on the P35 Chipset cannot be used unless you isolate the variable of memory speed and chipset. So you need to compare DDR2-800 with a 1.33GHZ FSB on the P35 Chipset to DDR3-1333 with a 1.33GHZ FSB on the P35 Chipset to generate any useful data.

    Not particularly most of the benches show that DDR2-800 is about the level of DDR3-1066 due to it's added latency. DDR3-1333 would be somewhat faster but not any dramatic increase as your trying to paint.

    The reason they moved to DDR3/P35 and 1.33GHZ FSB all at the same time (relatively), was because all 3 were needed to generate a worthwhile performance improvement.

Log in

Don't have an account? Sign up now