Quick Sync Performance

The 128MB eDRAM has a substantial impact on QuickSync performance. At a much lower TDP/clock speed, the i7-4950HQ is able to pretty much equal the performance of the i7-4770K. Running Haswell's new better quality transcode mode, the 4950HQ is actually 30% faster than the fastest desktop Haswell. This is just one of many reasons that we need Crystalwell on a K-series socketed desktop part.

CyberLink Media Espresso 6.5 - Harry Potter 8 Transcode

CPU Performance

I spent most of the week wrestling with Iris Pro and gaming comparisons, but I did get a chance to run some comparison numbers between the i7-4950HQ CRB and the 15-inch MacBook Pro with Retina Display running Windows 8 in Boot Camp. In this case the 15-inch rMBP was running a 2.6GHz Core i7-3720QM with 3.6GHz max turbo. Other than the base clock (the i7-4950HQ features a 2.4GHz base clock), the two parts are very comparable as they have the same max turbo frequencies. I paid attention to turbo speeds while running all of the benchmarks and for the most part found the two systems were running at the same frequencies, for the same duration.

To put the results in perspective I threw in i7-3770K vs. i7-4770K results. The theory is that whatever gains the 4770K shows over the 3770K should be mirrored in the i7-4950HQ vs. i7-3720QM comparison. Any situations where the 4950HQ exceeds the 4770K's margin of victory over Ivy Bridge are likely due to the large 128MB L4 cache.

Peak Theoretical GPU Performance
  Cinebench 11.5 (ST) Cinebench 11.5 (MT) POV-Ray 3.7RC7 (ST) POV-Ray 3.7RC7 (MT) 7-Zip Benchmark 7-Zip Benchmark (Small) x264 HD - 1st Pass x264 HD - 2nd Pass
Intel Core i7-4770K 1.78 8.07 - 1541.3 23101 - 79.1 16.5
Intel Core i7-3770K 1.66 7.61 - 1363.6 22810 - 74.8 14.6
Haswell Advantage 7.2% 6.0% - 13.0% 1.3% - 5.7% 13.0%
Intel Core i7-4950HQ 1.61 7.38 271.7 1340.9 21022 14360 73.9 14.0
Intel Core i7-3720QM 1.49 6.39 339.1 1178.3 19749 12670 66.2 12.9
Haswell Advantage 8.1% 15.5% 24.8% 13.8% 6.4% 13.3% 11.6% 8.5%
Crystalwell Advantage 0.9% 9.5% - 0.8% 5.1% - 5.9% -4.5%

I didn't have a ton of time to go hunting for performance gains, but a couple of these numbers looked promising. Intel claims that with the right workload, you could see huge double digit gains. After I get back from Computex I plan on poking around a bit more to see if I can find exactly what those workloads might be.

Compute Performance Pricing
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  • Old_Fogie_Late_Bloomer - Monday, June 3, 2013 - link

    The performance isn't earth-shattering, but if Intel manages to put out good open-source Linux drivers for Iris Pro, I can't help but feel like this would be a great chip for that; it isn't like you'll be playing Crysis in Ubuntu anytime soon. I kind of want that CRB (or something like it), actually. Reply
  • tviceman - Saturday, June 1, 2013 - link

    I'll bet notebooks with mid-range quad core CPU's and gt 750m discrete graphics will be cheaper than notebooks with Iris Pro enabled iGPU graphics as well. The only benefit would be a slightly slimmer chassis and battery life. Anyone who still wants to game on a notebook is noticeably better off with a mid-range discrete GPU over this. Reply
  • esterhasz - Saturday, June 1, 2013 - link

    On page four, the ominous launch partner is not "keen" rather than "key", I guess. I'd be very keen on having that rMBP 13" with IP5200, though. Reply
  • Ryan Smith - Saturday, June 1, 2013 - link

    Noted and fixed. Thank you. Reply
  • tipoo - Saturday, June 1, 2013 - link

    I'm very much in that boat too, a quad core 13" rMBP with Iris Pro would put it over the top. Reply
  • MattVincent - Wednesday, June 12, 2013 - link

    totally agree. I wonder if apple will actually put a quad core in the 13" though. I bet they would rather sell more 15" rmbp's Reply
  • jeffkibuule - Saturday, June 1, 2013 - link

    Would a 47W chip be able to fit into a normal 13" Ultrabook-like chassis like the 13" MacBook Pro with Retina Display? Only an extra 12W TDP to deal with. Reply
  • esterhasz - Saturday, June 1, 2013 - link

    This would be awesome and we have to remember that the 47W TDP includes voltage regulation moving off the MB, so the gap is maybe only 8W. The 47 TDP also refers to both CPU and GPU running at full speed, which is an extremely rare scenario - in gaming, the CPU load will probably hover at 50% only.

    In any case, if the tested model goes into a rMBP 13" I'm going to buy it before Tim Cook has left the stage.
    Reply
  • nofumble62 - Saturday, June 1, 2013 - link

    Thinking to buy a Ivybridge Mac Book Pro for my wife, I guess she will have wait a little longer for this baby. I wish they could fit in a Mac Book Air. Reply
  • jeffkibuule - Saturday, June 1, 2013 - link

    Look at the price of those chips though, you're going to be dropping at least $2000 on such a laptop when the CPU alone is $478. Reply

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