The Dark Knight: Intel's Core i7
by Anand Lal Shimpi & Gary Key on November 3, 2008 12:00 AM EST- Posted in
- CPUs
Is Nehalem Efficient?
At this year's IDF in San Francisco, Intel revealed a little discussed but extremely important aspect of Nehalem's circuit design:
The Nehalem design is Intel's first microprocessor in the past two decades to feature absolutely no domino logic, it's a fully static CMOS design. I've explained the differences between dynamic domino and static CMOS design in the past, but simply put: domino logic is used as a clock speed play. It's incredibly useful in implementing very high speed circuit paths on a chip and hit its all time peak in Intel's usage in the Pentium 4 days. The downside to using such high speed logic is that it requires a lot of power, but in microprocessor design there are always tradeoffs to be made.
There are many other energy efficiency plays within Nehalem
In Nehalem, Intel took the new architecture as an opportunity to revamp its design, went in and removed all remaining domino logic - but without impacting the peak clock speed of the architecture. The tradeoff here is one of die size, by using more parallel logic Intel was able to convert some serial, high speed paths, into larger, slower circuits that removed the need for domino logic. Details are unfortunately light and a bit beyond the scope of this review, but the move to an all static CMOS design is bound to reduce power consumption. Do you smell a comparison coming?
Both Nehalem and Penryn are built on the same 45nm process, available at the same clock speeds and capable of running the very same applications. In theory, Nehalem should be more power efficient, at the same clock speed, across the board thanks to its static CMOS design. To find out I measured average power consumption over the duration of a handful of benchmarks I used in this review.
Performance | POV-Ray 3.7 | Cinebench XCPU | x264 HD | Crysis |
Intel Core 2 Quad Q9450 (Penryn - 2.66GHz) | 2238 PPS | 11502 CBMarks | 61.5 fps | 34.0 fps |
Intel Core i7-920 (Nehalem - 2.66GHz) | 3528 PPS | 16211 CBMarks | 74.8 fps | 33.2 fps |
Nehalem Performance Advantage | 57.6% | 40.9% | 21.6% | -2% |
I picked these four benchmarks because they show us the range of Nehalem's performance, going from no performance improvement all the way up to a gain of nearly 60%. Now let's look at the power consumption in each of these four benchmarks:
Power Consumption | POV-Ray 3.7 | Cinebench XCPU | x264 HD | Crysis |
Intel Core 2 Quad Q9450 (Penryn - 2.66GHz) | 168.1W | 175.2W | 167.5W | 220.8W |
Intel Core i7-920 (Nehalem - 2.66GHz) | 202.2W | 208.6W | 176.6W | 230.8W |
Nehalem Power Disadvantage | +34.1W | +33.4W | +9.1W | +10W |
If you actually go through and do the math you'll find that Nehalem, despite using more power, is more efficient than Penryn. Performance per watt is around 24% better in POV-Ray, 15.5% better in Cinebench and 13% better in the x264 HD test. Crysis, the only benchmark where Nehalem actually falls behind, does require more power and thus Nehalem loses the efficiency battle there.
It seems as if Nehalem is even more polarizing than I had though. Despite the move to a fully static CMOS design, the changes aren't enough to make up for the scenario where Nehalem can't offer more performance; power consumption still goes up, albeit not terribly.
It's also worth noting that the power comparison really depends on the CPU used, here we've got the same comparison but with the Core i7-965 vs. the Core 2 Extreme QX9770, both clocked at 3.2GHz:
Performance | POV-Ray 3.7 | Cinebench R10 - XCPU | x264 HD | Crysis |
Intel Core 2 Extreme QX9770 (Penryn - 3.2GHz) | 2641 PPS | 14065 CBMarks | 73.2 fps | 41.7 fps |
Intel Core i7-965 (Nehalem - 3.2GHz) | 4202 PPS | 18810 CBMarks | 85.8 fps | 40.5 fps |
Power Consumption | POV-Ray 3.7 | Cinebench R10 - XCPU | x264 HD | Crysis |
Intel Core 2 Extreme QX9770 (Penryn - 3.2GHz) | 230.7W | 227.6W | 230.3W | 293.6W |
Intel Core i7-965 (Nehalem - 3.2GHz) | 233.7W | 230.7W | 196.2W | 248.5W |
It's tough to draw any conclusions based on two CPUs, but it is possible that at higher clock speeds Nehalem's efficiency advantage kicks in. The QX9770 has always been a bit high on the power consumption side, whereas the i7-965, even in situations where it is slower than the QX9770, offers better power efficiency here.
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fzkl - Monday, November 3, 2008 - link
"Where Nehalem really succeeds however is in anything involving video encoding or 3D rendering"We have new CPU that does Video encoding and 3D Rendering really well while at the same time the GPU manufacturers are offloading these applications to the GPU.
The CPU Vs GPU debate heats up more.
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Griswold - Tuesday, November 4, 2008 - link
Wheres the product that offloads encoding to GPUs - all of them, from both makers - as a publicly available product? I havent seen that yet. Of course, we havent seen Core i7 in the wild yet either, but I bet it will be many moons before there is that single encoding suite that is ready for primetime regardless of the card that is sitting in your machine. On the other hand, I can encode my stuff right now with my current Intel or AMD products and will just move them over to the upcoming products without having to think about it.Huge difference. The debate isnt really a debate yet, if you're doing more than just talking about it.
haukionkannel - Monday, November 3, 2008 - link
Well if both CPU and GPU are better for video encoding, the better! Even now the rendering takes forever.So there is not any problem if GPU helps allready good 3d render CPU. Everything that gives more speed is just bonus!