Intel's Core i7 870 & i5 750, Lynnfield: Harder, Better, Faster Stronger
by Anand Lal Shimpi on September 8, 2009 12:00 AM EST- Posted in
- CPUs
3dsmax 9 - SPECapc 3dsmax CPU Rendering Test
Today's desktop processors are more than fast enough to do professional level 3D rendering at home. To look at performance under 3dsmax we ran the SPECapc 3dsmax 8 benchmark (only the CPU rendering tests) under 3dsmax 9 SP1. The results reported are the rendering composite scores:
And we're back down to utter dominance yet again. The i5 750 is 12.6% faster than the Phenom II X4 965 BE and 18.8% cheaper. Harder, better, faster stronger.
Blender 2.48a
Blender is an open source 3D modeling application. Our benchmark here simply times how long it takes to render a character that comes with the application.
To get Blender to perform right on Lynnfield we actually had to update our graphics drivers. It looks like the on-die PCIe does require the latest NVIDIA/ATI drivers to work properly. The results aren't unusual; Intel has done very well in these tests and Lynnfield continues to dominate. The i5 750 is a bit slower than the 920 (and Q9650) thanks to its missing HT support.
Cinebench R10
Created by the Cinema 4D folks we have Cinebench, a popular 3D rendering benchmark that gives us both single and multi-threaded 3D rendering results.
The single threaded benchmark tells us everything we need to know. The Core i5 750 and i7 870 are two of the fastest processors we've ever tested at single-threaded applications. Very few microprocessors will be able to retire instructions from a single thread as quickly as Lynnfield. This is actually very noticeable in simply using the OS. Many tasks still aren't multithreaded but they execute very, very fast on Lynnfield.
Crank up the threads and Lynnfield is still competitive. Because it's missing Hyper Threading, the i5 750 is barely faster than the Phenom II X4 965 BE. Although I understand Intel wanting to segment its product line, it seems that the i5's missing HT goes a bit too far.
POV-Ray 3.73 beta 23 Ray Tracing Performance
POV-Ray is a popular, open-source raytracing application that also doubles as a great tool to measure CPU floating point performance.
I ran the SMP benchmark in beta 23 of POV-Ray 3.73. The numbers reported are the final score in pixels per second.
We see the same results under POV-Ray. Regardless of thread count, Lynnfield delivers the best performance possible short of a $1000 CPU.
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tajmahal - Tuesday, September 8, 2009 - link
You fail to mention that Microcenter prices are for IN STORE PURCHASE ONLY. If you live about 6 driving hours away from a Microcenter like i do, then you're screwed.Chlorus - Tuesday, September 8, 2009 - link
Shhh! Don't spoil his self-righteous post with your troublesome facts!strikeback03 - Tuesday, September 8, 2009 - link
Does Microcenter have a limit on how many processors people can buy? If not, why isn't anyone buying these things and reselling them for less than the ~$280 that Newegg (and every other online retailer) do?Solema - Tuesday, September 8, 2009 - link
Anand,I know those prices you quoted are per-unit prices from Intel, but they are much more expensive than actual CPU costs. Given that I can get the following from Micro Center, and that I plan to overclock and run two 8800GTS 512's in SLI, what would you recommend?
i5 750 - $179
i7 920 - $199
i7 860 - $229
It still seems to me that the additional overclocking flexibility of the 920 (especially on stock voltage), coupled with the better multi-GPU performance would make that the best CPU to purchase, no? Given that P55 motherboards currently only retail for about $50 cheaper than many x58 boards, wouldn't the extra $70 cost for x58+i7 920 over a P55+i5 750 be worth it? You get better multi-GPU performance, better overclocking, better RAM performance, and future upgradeability to 6-core CPU's. What am I missing that would tip the scales in favor of the i5?
Pneumothorax - Tuesday, September 8, 2009 - link
the 920 for sure as you get a HT CPU for even cheaper than the 860. Both should overclock the same.dman - Tuesday, September 8, 2009 - link
So, do they support Hardware Virtualization? And don't give slack about not targeted at that market, specifically, does this support Windows 7 virtualization mode?I searched and didn't see it covered. I've read that the i5 and lower do not support vt-d, but, I'm not sure how that translates to Windows 7 "XP mode" support... I do need to review a bit more, would be nice if this was covered in the review.
I do know that this IS something that the Phenom family does support.
http://www.virtualization.info/2009/07/intel-core-...">http://www.virtualization.info/2009/07/...core-i3-...
ash9 - Tuesday, September 8, 2009 - link
No Virtalization!! That maybe huge for corporate setups,how did I miss that.
It should have been reported
has407 - Wednesday, September 9, 2009 - link
VT-x != VT-d. You want, and may need, VT-x. Most people don't need VT-d, much less know what to do with it or have a system that can make use of it--if you do, you're very unlikely to be using one of these CPUs.VT-x is Intel's name for processor virtualization features; it is part of the processor. All Core iX CPUs support it. VT-x is required for some hypervisors, (e.g., MSFT HYperV), but not all, although most (all?) require it for running 64-bit guests.
VT-d is Intels name for for IO virtualization (specifically "directed IO"); it is, or has been, part of the northbridge. For VT-d to be useful, you need a chipset that supports it; a MB/BIOS that supports it; and a hypervisor that knows how to use it. VT-d is primarily of interest to VM's that want to dedicate direct access to hardware by guests, and avoid the overhead of the hypervisor for that IO.
When you see "CPU X supports vT-d", it means the chipset for CPU X supports VT-d (the P55 supports VT-d). Whether MB/BIOS vendors choose to support it is another matter. Moreover, support for VT-d isn't simply yes or no; support varies by chipset (e.g., the P55, like the rest, support virtualizating a subset of interfaces).
In short:
1. Based on Core iX chipset capabilities (e.g., P55, X58), VT-d support is an MB vendor decision--not a function of the CPU model.
2. Which vendors support VT-d, and to what extent, is more often than not clear as mud, and the topic of much discussion in some threads.
3. If VT-d is important to you, you're probably running a heavy virtualized workload on an MP system with 10Gbe or very fast DAS--certainly not a Core iX. (Only exception of interest to others might be for access to GPU's by VMs)
What the new processors throw into the mix is an integrated PCIe controller, which also means an integrated DMA controller (at least I hope it does). Whether that supports VT-d is unknown (I haven't been able to find a definitive answer).
Gary Key - Tuesday, September 8, 2009 - link
VT-d is enabled on the i7/870-860. It is not enabled on the i5/750, just VT-x is available on it. I am working on Windows 7 XP mode as we speak.Jakall78 - Tuesday, September 8, 2009 - link
Reading this site for years, but there is something wrong going on here. Besides some slideshow pictures from Intel and 2-3 tests... there is nothing. That is not the way reviews are done. Look at the SSD reviews, THAT is a review(both of them actually). Now please look at this reviewhttp://translate.google.com/translate?prev=hp&...">http://translate.google.com/translate?p...mp;sl=ro...
and say it`s not better...
* I`m not making any false advertising here, I just found a better review.