Quick Thoughts-

After a lot of speculation, it is obvious that the Core i7/860 and i7/920 platforms perform equally for the most part when compared on an equal clock basis, otherwise the 860 in Turbo mode is a better solution in most cases at stock speeds. The X58/920 combination will offer a very slight improvement in performance when the data pipeline is full; however it is very small, even under heavy multitasking conditions. The X58/920 does offer improved graphics performance in SLI or CF configurations.

While the 965 BE is a very competent processor, it is overshadowed at times by the performance of the turbo enabled i5/750. In the 3D rendering applications, the sheer clock speed advantage of the 965 BE certainly comes into play when comparing it directly to the i5/750. When comparing clock for clock speeds at 3.8GHz, the Intel processors offer a clear performance advantage over the 965 BE, especially in the well threaded applications that take advantage of Hyper-Threading. If you overclock your system and want the absolute best performance, the Intel processors used in our article today are your best choice.

Even though our initial benchmark selection is fairly limited, the overall pattern continues in the balance of our benchmark test suite, even in those applications specifically suggested by AMD. However, it is different story in several of our game benchmarks when the AMD system is paired with an Nvidia GTX275 (other GTX2xx variants as well). Why this is, we do not know yet given the results of the AMD HD 4890 on either platform.

And now for the Hot Computer Opinion (HCO). The X58/920 and 790FX/965BE platforms seemed slow in daily usage compared to the P55/860 setup or even the P55/750 at times. I am talking non-overclocked standard issue setups running a variety of applications, especially when multitasking. Of course, the difference is due to the Turbo modes employed on the Lynnfield processors.

While the perceived difference in performance is not as drastic as when moving from a hard drive to a decent SSD, it certainly is there. The performance benchmarks might tell another story at times, but if you just sit down and use a P55/860 platform and then move to an X58/920, 790FX/965BE, or P45/C2Q setup, the performance differences are noticeable in day to day usage. Even the P55/750 has its benefits and generally felt very “snappish” when under heavy loads.

Honestly, I really never thought I would say that after using a 790FX/965BE setup for several weeks and thinking afterwards I would have a very hard time recommending an X58/920 platform for typical home and gaming usage. When overclocked, the Intel Bloomfield/Lynnfield platforms basically performed equally on a clock for clock basis. The only differences were with the i5/750 in well-threaded applications. With HT enabled, the 860 and 920 are in a dead heat, except the Lynnfield platform will use about 70W less power for equal performance.

Unless you are a benchmark jockey, the dual x8 PCIe setup on the P55 is not going to be a performance hindrance with today’s video cards if you must run CrossFireX or SLI. Neither will the slightly better data throughput capabilities of the X58/920 when under heavy load conditions. I guess that really is the crux of the matter, unless you are a benchmark jockey then justifying a Bloomfield platform over a Lynnfield or even AMD’s Dragon platform is very difficult.

However, there are those that demand every last ounce of performance and the Bloomfield platform is the best choice for these particular users. I still really like the 790FX/965BE platform; in fact I would certainly purchase it over a P45/C2Q setup without question. When comparing it to the i5/750, the decision becomes more difficult, especially based on price.

However, considering my multitasking habits and the fact I do not overclock my work systems, the 965BE becomes the clear choice for me, until I compare it to the i7/860. Therein lies the problem, you can play the “what if” game all day and it will get you absolutely nowhere. In the end, you have to choose a platform that best suits your needs and budget. I just happen to think the clear choice for my particular needs is the i7/860 processor on a mid-range or even budget P55 motherboard. We will soon see why.

Multitasking and Games
Comments Locked

77 Comments

View All Comments

  • crimson117 - Tuesday, September 15, 2009 - link

    "It is items like this that make you lose hair and delay articles. Neither of which I can afford to have happen."

    Thank you for making me almost choke on the scone I was eating.
  • Ocire - Tuesday, September 15, 2009 - link

    That's some strange numbers you got there...
    Just an idea that popped up my mind: Could effective PCIe bandwidth be the key here?
    You can do the bandwidth test that comes with nVIDIAs CUDA with the shmoo-option for pinned and unpinned memory on both platforms.
    If you get higher numbers on the AMD platform, it could be that with P55 and X58 the card is in some cases interface bandwidth bound. (Which isn't that uncommon in some GPGPU applications, too)
  • Holly - Tuesday, September 15, 2009 - link

    I was thinking about bandwidth as well, but then I realised with P55 CPU has direct lanes to first PCIe 16x slot while X58 platform runs via Northbridge... It's way too different approach to both produce same problem imho...

    This seems like driver issue to me. Maybe the CPU and GPU parts of the engine+drivers run asynchronous and communication in between gets suffocated (st like i7 manages to compute too fast and data have to wait for next loop to go through)...

    no clue though, it's just my best guess...
  • TA152H - Tuesday, September 15, 2009 - link

    A lot of people are getting confused by the PCIe being on the processor as opposed to the Northbridge. Because the IMC shows advantages on the processor die in terms of memory latency, and moving the floating point unit did with the 486, it's assumed moving things onto the processor die should be faster. If you look closer though, it becomes clear this just isn't so.

    The reason the memory controller on the processor has advantages comes down to two important considerations - it's transferring to and from the processor, and it's got finer granularity than something running at lower clock speeds.

    Let's look at the second first. Let's say I'm running the processor at eight times the speed of the northbridge. The number isn't so important, and it doesn't even have to be an integer, to illustrate the point, so I'm just picking one out of the air.

    Let's call clock cycle eight the one where the northbridge also gets a cycle and can work on the request from the processor, and for the sake of simplicity, the memory controller can work on it. If I get something on processor cycles one through seven, I could start the memory read on the IMC, but the slower clock speed doesn't that level of granularity, so the read, or write, request waits. This is a gross oversimplification, but you probably get the point.

    Perhaps more importantly, you're transferring from memory, to the processor. It's too the actual device the memory controller is attached to. And since the memory controller is on the processor itself, there's less overhead in getting generating the request to the memory controller.

    The PCIe 16 slot is a different animal. You're not generally using the processor for this, except for now. It's going from one device, typically to memory, with possible disastrous consequences for the brain-damaged Lynnfield line.

    With a proper setup, there wouldn't be any real difference. I'm not sure how the Lynnfield is set up though, and I'm not sure it's a proper setup like the x58. I'll explain. If we look at the x58, the video card will transfer memory to the Northbridge, and then the Northbridge will interface to the memory. It has channels on it to do that, and it doesn't involve the processor at all, or need to.

    On the Lynnfield, now you're involving the processor, for no good reason except for cost (which is a really good reason, actually). So, now the video card sends a request to the PCIe section of the processor, and the processor has to do the transfer. Now, this is the big question - just how brain-damaged is the Lynnfield? Does it actually have a seperate path to handle these transfers, or does it basically multiplex the existing narrow memory bus to handle these? It's almost certainly the latter, since I don't know how much sense it would make to only use part of the memory bus for all other transfers. Anand can hopefully answer these questions, although this site tends to never look very deep at things like this, so I'm doubtful. I guess they don't think we're interested, but I surely am.

    The end result is, you could have competition for the already narrower memory bus, where the processor can get locked out of it while PCIe transfers are going on. This is consistent with some benchmarks other sites show, where the Lynnfield struggles more than it should on games.

    I don't want to make this sound worse than it is though. Most video cards have a lot of memory, and the actual number of requests to memory hopefully isn't very high. Even on a Bloomfield, any request to main memory is a slow down since video memory will always be faster. Also, cards will keep getting more memory, whereas the human eye is not going to get able to discern better resolution, so presumably cards will not have to use main memory at all, in the future. And, keep in mind, processors have big L3 caches, so don't need to go out to memory all that often. So, it's not catastrophic, but you should see it, and more as you stress the CPU and GPU. Again, if you look at other websites that did some serious game stressing, you do see the Bloomfields distance themselves from their brain-damaged siblings as you stress the system more.
  • yacoub - Tuesday, September 15, 2009 - link

    I think we'd all be interested to know the answer to this quandary, however I also think you're exaggerating a bit when you call it brain damaged and say things like "disastrous consequences". In reality what you mean is that in extreme bandwidth saturation situations like SLI it's possible it might be slower than X58, and maybe when the DX11 generation of cards come out they will actually require enough bandwidth for it to be even more noticeable in SLI comparisons. But for the vast majority of us who run a single GPU, so long as a single DX11 card doesn't fully saturate the available bus bandwidth and thus doesn't perform any less than on X58, P55 is just fine.
  • TA152H - Wednesday, September 16, 2009 - link

    I agree, when I was typing it, I meant disastrous consequences with respect to that particular instance when the processor has to multiplex. In the context of overall performance, I don't think it would be that huge. I wasn't clear about that.

    But, you're off with regards to the saturation. You don't have to saturate the bus, at all. You don't need two cards. That type of thinking is fallacious, in that it assumes only part of the bus is used.

    In reality, ANY time the video card needs the memory bus, and the processor needs to read memory, you've got a collision, and one or the other has to wait. This would happen more often if you have more stress on the processors, or video subcomponent, but could happen even with one card, and one processor being used. It just would be much less frequent, and probably insignificant.

    These are the type of compromises these web sites should be bringing up, but they simply don't. It's not just this one, but shouldn't a tech site bring up questions like this, instead of just publish benchmarks (which, as we know, are far from objective and can paint a different picture based on the parameters and benchmarks chosen).

    I wouldn't expect this from PC Magazine, but from 'tech' sites? They just aren't very technical.
  • Gary Key - Tuesday, September 15, 2009 - link

    P55 will be just fine with the DX11 cards.. whistles and grins evilly looking at the results, however, for top performance in SLI or CF, it is X58 all the way. That said, I have not been able to tell the difference between 130 FPS and 128 FPS in HAWX yet, nor between 211 FPS and 208 FPS in L4D. :)
  • jonup - Wednesday, September 16, 2009 - link

    does your comment mean that you have/have seen a HD 5870 in action?
  • yacoub - Tuesday, September 15, 2009 - link

    It appears more driver/optimization-related given that some games that are less bandwidth-intensive are showing the strange performance and others are not.
  • yacoub - Tuesday, September 15, 2009 - link

    Hey I wonder if Gary tried renaming the .exe just to see if it was a driver bug with certain game engine optimizations! :)

Log in

Don't have an account? Sign up now