Dell XPS 15 General Performance

We start as usual with our general performance application benchmarks. We’re reaching the point where we now have quite a few notebooks in our updated Mobile Benchmark suite, and we’ve tried to select some reasonable comparison points. Given the preliminary nature of our benchmark results (i.e. potential for CPU and/or GPU throttling), we have not yet added the XPS 15 to Mobile Bench, but we will do so when we have a final release BIOS that addresses our throttling concerns. Here’s the list of laptops we’ll be using for our charts, along with a brief overview of their specs. The full specs for each laptop can be found in their respective reviews, which we’ve linked in the table below.

Laptop Configuration Overview
Laptop CPU Graphics Storage Battery
Acer Aspire V3-571G Intel i7-3610QM GT640M/HD4000 HDD 48Wh
Acer Aspire S5 Intel i7-3517U HD4000 SSD 35Wh
Acer TimelineU M3 Intel i7-2637M GT640M/HD3000 SSD 55Wh
AMD Trinity Prototype AMD A10-4600M HD7660G SSD 56Wh
ASUS N56VM (Prerelease) Intel i7-3720QM GT630M/HD4000 HDD/SSD 56Wh
ASUS G74SX-A2 Intel i7-2630QM GTX560M/HD3000 SSD 90Wh
Clevo W110ER Intel i7-3720QM GT650M/HD4000 Hybrid (Seagate) 62Wh
Dell XPS 15 (L521x) Intel i7-3612QM GT640M/HD4000 Hybrid (SRT) 65Wh
Razer Blade Intel i7-2640M GT555M/HD3000 SSD 60Wh
Sony VAIO SE Intel i7-2640M HD6630M/HD3000 HDD 49Wh
Toshiba P755D AMD A8-3520M HD6620G HDD 47Wh

We have quite a few SSD-equipped laptops in our list, which will mostly influence PCMark results. The Dell XPS 15 we’re reviewing marks the first time—and certainly won’t be the last!—we’ve had a laptop arrive with support for Intel’s Smart Response Technology. Previously SRT was only available with the desktop Z68 chipset, but with the new Ivy Bridge Panther Point chipsets (see the chipset table at the bottom of our IVB Ultrabook review) laptops with 7-series chipsets (excluding the HM76) all support SRT. Dell uses a Samsung P830 32GB mSATA SSD for SRT caching, and we enabled the higher performing “Maximized” mode with write-back caching as opposed to the lower performing “Enhanced” mode with write-through caching. There is an increased risk of data loss in the event of hardware removal or failure, but HDD removal is highly unlikely to occur on the XPS 15 and in the case of hardware failure there’s already a high chance of data loss. (We always recommend users back up, and back up often!) Note that a system crash doesn’t cause data loss—the Intel BIOS hooks detect an improper shutdown with “unsaved” data in the SSD cache, and that data is then committed to the hard drive on the next boot—it’s actually quite slick.

The other hybrid storage solution that we’ve seen more often is Seagate’s Momentus XT, which has an 8GB cache that AFAIK only functions in write-through caching mode. Going forward, we’ll also see some laptops using alternative caching schemes like Diskeeper/Condusiv Technologies’ ExpressCache software. I do have a laptop undergoing testing right now with an 8GB ExpressCache implementation, and it appears to be less performant than a 32GB SRT cache, but given the discrepancy in SSD size it’s difficult to come to any firm conclusion at this point.

Now let’s get to the benchmark results, starting with PCMark. We ran the XPS 15 in both IGP and dGPU modes, as the presence/lack of Intel’s Quick Sync technology can have a sizeable impact on overall performance according to this metric. We’ve used the best score for each chart on previously testing laptops (e.g. IGP for the Computation results). The XPS 15 results are in green, with the similarly equipped Acer V3-571G results in yellow. We also have results for the ASUS N56VM/N56VZ prototype with both HDD and SSD (light blue) storage, so you can get a feel for the range of performance that the storage solution creates. Note that while the overall design is highly reminiscent of Apple’s current MacBook Pro 15, we do not have current MBP15 Boot Camp results—and anecdotally it appears there is very little cross shopping; people either want an MBP with OS X, or something else with Windows. If/when Anand or Vivek gets around to testing the latest MacBooks with Windows, we’ll add the results to Mobile Bench.

PCMark 7 - PCMarks

PCMark 7 - Lightweight

PCMark 7 - Productivity

PCMark 7 - Entertainment

PCMark 7 - Creativity

PCMark 7 - Computation

PCMark 7 - Storage

Starting with PCMark 7, our results are actually somewhat surprising. The hybrid Seagate Momentus XT storage in the Clevo W110ER doesn’t improve scores all that much over a typical hard drive (if you can call 25% “not that much”), whereas the 32GB SRT solution in the XPS 15 looks to improve performance by around 75% over an HDD. Of course, if you make the switch to a pure SSD solution (e.g. look at the N56VM scores), PCMark 7’s overall score improves by 135%. That pretty much establishes the expected storage hierarchy: SSD > HDD + SSD Cache > Hybrid HDD > HDD.

There are a few other oddities in the PCMark 7 results worth noting. Both the Creativity and Computation suites benefit tremendously from Intel’s Quick Sync technology. For whatever reason (we tried both the 2696 and 2761 Intel drivers, with similar scores in both cases), the XPS 15 results don’t seem to be in line with other Ivy Bridge laptops. In particular, note how the other three IVB laptops (N56VM, UX21A, and V3-571G) all post Computation scores in excess of 20000, while the XPS 15 has to “make do” with a score of only 11000. This may be yet another instance where throttling is affecting the results, so we’ll wait for updated firmware before trying to draw any final conclusions.

Cinebench R11.5 - Single-Threaded Benchmark

Cinebench R11.5 - Multi-Threaded Benchmark

x264 HD Benchmark - First Pass

x264 HD Benchmark - Second Pass

Our CPU-centric tests put the XPS 15 and its 35W i7-3612QM right about where you’d expect. It’s faster than any dual-core processor and outperforms the quad-core Sandy Bridge chips, but it’s a slight step down from the standard voltage 45W IVB quad-cores. Throttling of CPU clocks did not occur during these tests, so it’s only when the CPU and GPU are carrying a significant load the throttling is triggered. As far as we can tell, with the current A04 BIOS, the Dell XPS 15 can pretty much loop a workload like the Cinebench SMP test indefinitely and remain at the maximum Turbo Boost clock (though that may change with updated firmware).

Futuremark 3DMark 11

Futuremark 3DMark Vantage

Futuremark 3DMark06

3DMark results also put the XPS 15 and its GDDR5-equipped GT 640M right where you’d expect. It’s a step up in performance over the DDR3-equipped GT 640M in the Acer V3-571G, and it also beats the previous generation GT 555M in the Razer Blade. Meanwhile, the GTX 560M can still win in our synthetic graphics tests, and the GT 650M with GDDR5 also outperforms the XPS 15. There are no real surprises here, but as noted several times already, throttling may be affecting these results—and it’s definitely a factor in the gaming results, which we’ll get to next.

The Dell XPS 15 in Practice Dell XPS 15 Gaming Performance (with ThrottleStop)
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  • solipsism - Wednesday, July 25, 2012 - link

    1) How is the experience with that large trackpad. So far I haven't seen or experienced any notebook following Apple's path here that has made it a great experience.

    2) Regarding the first page, I think the quality of the display is also very important. the MBP might be a TN panel but it's a damn good TN panel. Asus also has plenty of great panels in what tend to be cheap machines. Since I'm always looking at the display I couldn't choose this Dell even if the PPI is decent.
  • Spivonious - Wednesday, July 25, 2012 - link

    147dpi is "decent"? My, how times have changed. I remember when I bought my 125dpi CRT and it was top-of-the-line.

    Still, since most Windows apps aren't high-DPI aware, getting a high DPI screen on a laptop isn't as important as it is on a phone or tablet.

    Don't get me wrong, I do like the higher DPI screens that we're seeing now, but calling 147dpi "decent" really made me laugh.
  • solipsism - Wednesday, July 25, 2012 - link

    It's not a measure of percentage over a set time frame. It's simply a statement of what is deemed satisfactory.

    Note that at 141 PPI it's significantly more than the MBP at 110 PPI. Note that you only need to be 24" away from the display for it to be Retina quality for those with 20/20 vision.

    PS: Even though we now have 200 PPI displays with the new MBPs don't think that ten years from now that display will be crap if it's not 5, 10 or 20x the pixel density. Around 200 PPI will be hear for a very long time.
  • Serge SC - Thursday, September 13, 2012 - link

    I've had a 15.6" FHD screen for 3 years now.

    My eyes are in the 18/20 perhaps, even better, and still, I can't see the pixels while being around 50 cm away from my screen...

    Sure, the more the merrier, but at full HD on this size of panel, it is good enough that 90% of users can't see pixels from normal usage distance.
  • SodaAnt - Wednesday, July 25, 2012 - link

    Well, I've had a 1080P 15" laptop display for a while, and to be honest, as long as you are sitting in a normal position about two feet away from the screen, there is no way you can see the individual pixels. However, I do admit that they have a long way to go on making the screen look good though.
  • Frallan - Wednesday, July 25, 2012 - link

    Hmm had they been able to squeeze a 660 in there it would have been an immediate buy for me but the 640 just doesn't cut it. It would be interestin to see some new development in heat management in lappys - the same theory and build is still being used as for 10 yrs. I think that it should be possible today to think of a new way of doing things.
  • xype - Wednesday, July 25, 2012 - link

    Don’t worry, as soon as Apple decides to use any of the myriad of advanced cooling solutions, everyone will start doing it. It’s just, you know, too big a RISK to try it first. Better have another medicore model selling in small numbers than try and aim for Gold.
  • ananduser - Wednesday, July 25, 2012 - link

    What was said about this model regarding thermals is also true about Apple's MBP. As soon as you start pushing the hardware it too gets extremely hot.
  • xype - Wednesday, July 25, 2012 - link

    That’s why I said "as soon as Apple decides", meaning "they are not doing it, yet." Duh.
  • Spoony - Wednesday, July 25, 2012 - link

    In the past, I would have agreed with you wholeheartedly. Previous MacBook Pros (and PowerBooks) were absolute space heaters. They sat at about 95C as soon as you started doing anything intensive with them. Lap toasters!

    The fan ramps used by Apple are also hugely conservative in favour of noise, which I do not feel is the right trade off. Frequently you'd see 103C before the fans had ramped up all the way.

    All this being said, I recently ran several stress tests to see if the differences Apple had made to the Retina MacBook Pro actually did anything. The results were extremely positive. A highly synthetic stress test on CPU/GPU yielded 82C highest temp (on the Nvidia card).

    I bought a rMBP, and have been very satisfied with the thermal performance. Coming from somebody who was highly critical of all previous Apple machines in this regard. You do have to encourage the fan to ramp properly sometimes, so it isn't perfect. Just a lot better.

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