Surface Pro 4 Design: Thinner, Lighter, Hybrid Cooling

The latest incarnation of the Surface Pro is, as I already said, an evolution of the Surface Pro 3. It keeps the same 3:2 aspect ratio on the display, which is now standard across the Surface line. The chassis is still built out of magnesium and finished with the same texture and color. The Surface Pro 3 went from a multi-position kickstand to an infinitely variable design, and worked well, so there was little reason to change that. In fact, the Surface kickstand is one of its defining features, but Microsoft did not even mention it during the October 6th devices event. I guess they feel it’s where it needs to be.

When Anand reviewed the Surface Pro 3, one of the key features was how much thinner it was than the Surface Pro 2, yet it kept the same 15 Watt U series Haswell processor. This was an Ultrabook class processor, stuffed into a tablet. At just 9.1 mm thick, the Surface Pro 3 was quite a bit thinner than anything else out there with a full 15W Core CPU inside. The trade-off was sustained performance. Short or bursty workloads would let the full turbo be used, giving great short term performance, but over time the Surface Pro 3 would throttle back compared to Surface Pro 2.

Surface Pro 3 (left) vs Surface Pro 4 (right)

Surface Pro 4 (left) vs Surface 3 (right)

Microsoft has addressed this in the Surface Pro 4 in two ways. First, they have moved from the 22nm Haswell based Core i3, i5, and i7 to Intel’s latest and greatest 14nm Skylake processors, bypassing Broadwell in the process. Surface Pro 4's CPUs are still rated at up to 15 Watts though, so despite being able to do more work in the same amount of power, you still need to dissipate the heat in order to maintain performance. Microsoft has moved to what they are calling a hybrid cooling system in an attempt to do just that.

When they say hybrid cooling, it has nothing to do with a Toyota Prius. Instead, the Surface Pro 4 now features two cooling systems. There are two heatpipes coming from the CPU, with the first one leading to a large copper plate which is housed between the battery and the display. This block of copper is designed to be used as a passive heatsink, better spreading the heat from the CPU across the entire chassis as opposed to keeping it in the corner. Surface Pro 4's passive cooling is meant to be used for most tasks, which should help out with the fan noise that was present on the Surface Pro 3. So far I've found that Surface Pro 4 stays passive for almost all tasks, and I’ve only noticed the fan kicking in under gaming or heavy benchmarks.

Otherwise once the heat output exceeds what can be removed through the passive cooler, the active cooling component kicks in. Turning on its fan, the Surface draws heat from the CPU via the second heatpipe and expels hot air out the small slots up by the power button. This is slightly different from a traditional active cooling setup - the "heatsink" isn't used as part of the active cooling system - and as a result this setup allows the Surface to augment its passive cooling with the active cooling supplied by the fan.

The one exception to all of this is the Core m3 version of Surface Pro 3. At just a 4.5 Watt TDP, the active cooling is not required and the fan is not even installed in that model.

Surface Pro 4 cooling system

At the launch event for the Surface Pro 4, I was told that the new cooling system can actually dissipate more than 15 Watts, so if that is the case the Surface Pro 4 should not run into the same throttling issues that were prevalent in the Surface Pro 3.

To take a look at the new changes and how they affect performance, I’ve run some tests to see if we can come to a conclusion on whether or not this is going to be an improvement over the Surface Pro 3 despite it actually being a bit thinner.

First, let’s take a look at the same workload Anand used in the Surface Pro 3 review. PCMark 8’s Work test is a nice mix of workloads with some that are very CPU intensive and some are burst tasks. Anand found that even on this test where the CPU does have a chance to clock down between tests, there was still a drop of up to 8% running the tests sequentially. Each time you run the test, it runs through the same workloads three times, so by running the entire test three times we are running nine sets of tests in a row.

PCMark 8 v2 Work Performance Over Time
  Work Suite Run #1 Work Suite Run #2 Work Suite Run #3
Microsoft Surface Pro 4 (Core i5-6300U) 3757 3762 (+0.13%) 3792 (+0.93%)
Microsoft Surface Pro 3 (Core i5-4300U) 3273 3031 (-7.39%) 3129 (-4.40%)
Microsoft Surface Pro 2 (Core i5-4200U) 3222 3223 (+0.03%) 3218 (-0.12%)

The first thing that is obvious is the better performance of the Surface Pro 4, but also the consistency between runs is much better. There is no evidence of throttling occurring with the new model.

PCMark also keeps track of CPU frequencies and other stats during the run. There is no way to export this other than to use their graph so I’ve copied the image here. I’ve also included the images used with the Surface Pro 3 review for comparison. Do note however that PCMark 8 can't currently measure Skylake power usage, so we aren't able to record that for Surface Pro 4 at this time.

Surface Pro 4 - PCMark 8 Work

Surface Pro 3 - PCMark 8 Work

Surface Pro 2 - PCMark 8 Work

It’s a bit tough to see because PCMark auto-scales each graph individually, but the Surface Pro 4 performs much better than the Surface Pro 3. The biggest difference is that the temperature of the CPU is much lower. The Surface Pro 3 approached 80 degrees Celcius, but the Surface Pro 4’s Skylake processor doesn’t even hit 60 degrees in this test. Part of this is the new 14 nm processor but the new cooling system is also doing a nice job.

I think PCMark is a good test of normal workloads, but it’s not going to be something that really stresses the CPU for a long time to see if the chip will throttle over sustained workloads. I’ve also run logging while doing a run of the x264 benchmark which puts the CPU at 100% load for the duration.

This is a pretty good result. The CPU is basically pushed to 100% for the entire run and although there are some frequency changes, over time we do not see a drop in performance which you would see if the processor was running into a temperature limit. Once again part of this is Skylake, which is going to be more efficient than Haswell, but it still has the same 15 Watts of thermal design power and this is a great showing by the Surface Pro 4.

However if we really want to stress the chip to the max while doing a task that is actually a real world test (and not just a CPU/GPU stress test which is not real world at all) we can turn to gaming. GPU workloads can easily chew through all of the available power/thermal limit. To test this, we are using a new version of our DOTA 2 benchmark for the recently launched DOTA 2 Reborn. This test was performed with our Enthusiast settings which is 1920x1080 and all settings set to max.

The Surface Pro 4 does pretty well here again, but now we can finally see the thermal limits of the thin chassis. Eventually, the GPU has to be clocked down in order to keep temperatures in check.

Overall the outside design of the Surface Pro 4 has not changed much. It’s slightly thinner, slightly lighter, but unless you had it side by side with the Surface Pro 3 it would be difficult to tell the difference. The real changes are under the covers, where the new cooling system shows that you can actually build a thin tablet with a Core CPU inside.

Introduction New Accessories: Type Cover, Surface Pen, Surface Dock
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  • digiguy - Wednesday, October 21, 2015 - link

    Yes, a matte screen protector is a must. I couldn't imagine my SP3 without and it makes it usable outdoors Reply
  • baggodonuts - Wednesday, October 21, 2015 - link

    Won't the matte screen protector interfere with text clarity, stylus accuracy and factory color calibration though? Reply
  • digiguy - Wednesday, October 21, 2015 - link

    The one I have on my surface pro 3 works perfectly with the pen, and the screen clarity is even improved in my opinion (no finger prints). On the Ativ smart pc (wacom) it had some impact on the pen, but on SP3 (n-trig) the pen works perfectly with the screen. Reply
  • illustrious toilet seat - Wednesday, October 21, 2015 - link

    Which matte screen protector are you using? Reply
  • MrPhilo - Saturday, October 24, 2015 - link

    Yeah what make? Reply
  • i4mt3hwin - Wednesday, October 21, 2015 - link

    I haven't personally used the tablet, but they thinned the display stack, moving the screen closer to the surface of the glass. This usually results in less reflectivity (it's something a lot of the phone OEM's talked about a few years ago). Combine that with the slight increase in brightness and it should be a little better in sunlight. Reply
  • MrPhilo - Saturday, October 24, 2015 - link

    Jsjsheue Reply
  • III-V - Wednesday, October 21, 2015 - link

    Seems a bit odd that they'd have the polarizing film oriented that way. Reply
  • meacupla - Wednesday, October 21, 2015 - link

    AFAIK, the only screen type that doesn't have any polarization are AMOLED and CRT.

    All LCD panel types, MVA, PVA, IPS, AHVA, TNT, etc. use a polarizing film layer, and they're usually oriented so that you can use them in landscape mode.
    Reply
  • zhenya00 - Wednesday, October 21, 2015 - link

    That may be true of many devices, but the iPad Air 2 is one of the better devices I've personally used outdoors in direct sunlight, and it has no orientation that doesn't work just fine with polarized glasses. We've actually tested many of the 'outdoor readable' tablets and most of them aren't even as good as the new iPad. Reply

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