Intel’s latest chipset has recently launched and the Z170 series or Skylake as it is informally known, is a refinement of the earlier Broadwell range launched last year. The Broadwells were most notable for bringing 14nm processors to the market, althrough these CPUs tended to be lower powered solutions and so didn’t register all that much on the enthusiasts radar
Of couse the is nothing wrong with lower powered solutions and the lower heat is always great especially if you want a low noise system to work with, but the for those who also required large amounts of performance the Broadwells were simply not all that attractive, with many of us who were simply looking for the very best performance at a given price point, choosing to stick with the Haswell platform from the generation before, as it simply offered up the best bang per buck solution.
So with that in mind, we’ll take a look at overall performance using the trusty DAWBench test and see how it all stands, along with consideration being given to both upgrades and new machine senarios.
We’ve discussed DAWBench a number of times over the years with the last time being our start of year round up. As this is a quick test to see how the new chips hold up, if you’re not already up to speed, may I suggest checking out the last time we visited this and it should give you a quick grounding before we dive in.
You can find that testing round here.
Fully caught up?
Ok. Then lets begin.
Give the image below a click and you can see our test results.
So this time around we’re testing 2 CPU’s with those being the i5 6600K and the i7 6700K. This time we’ve benched them in two different states where the lower clock speed is CPU at stock clocks with the turbo locked on at 100% of the advertised turbo clock speed and the second test shows the CPU in question being overclocked up to 4.4GHz setting that we supply our systems at.
When the overclock option is selected it should allow us to see what sort of difference the overclocking process can make, which in turn shouldl also help measure us measure the new chips against some of the older CPU scores where we’ve also worked with similar overclock figure. Also be aware we keep our overclocks on workstations rather minimal choosing to get the best out of chip, rather than push it to its limits.
This means that we don’t ramp up the voltages and generate the heat that comes with higher overclocks often seen on the gaming systems, which also have fast fans and noisey cooling in order to compensate, which of course would be completely unacceptable in a recording studio environment.
Starting with the i5, well it pretty much returned the performance levels matching the older 4790K chip, with a small performance boost showing up at the very tightest buffer settings, which admittedly is always a very welcome bonus. As a new replacement for the older chip, well it keeps the value the same whilst giving you access to the other benefits of the platform, so as a new build these should all prove most welcome additions, although as an upgrade from an older i5 it’s going to be harder to justify.
Of course if you are looking to upgrade in the midrange then the i7 option will possibly make more sense anyhow and this is where it gets a bit more interesting. The good news here is that we see both a slight power saving over the older 4790K with roughly 10% more performance increase clock for clock over that older 4790K, which was best performance crown around the midrange until the launch of these new chips.
As I’ve already touched upon briefly, Skylakes main selling point has been the other features it introduces to the mainstream. The boards we’ve seen are offering more M.2 slots which in themselves offer transfer speeds in excess of 4 times those speeds seen on current SSD’s. Some boards are also offering the ability to hybrid RAID them PCIe based add in cards too, meaning that if your tempted then this platform will offer up some truely amazing data transfer speeds that could transform your time in the studio if you work with large sample libaries and templates like some VSL users.
Additionally USB 3.1 and USB type C are now native to the Z170 chipset and this standard is only going to to grow over coming years, so early adoptors, this is your platform. It’s also the first time we’ve seen DDR4 in a mainstream setup and for those working with video editing on the side, the extra bandwidth will prove beneficial to some extent. AVX 2 instruction improvements to CPU’s may also prove beneficial to multimedia applications in the future, although these tend to impact CAD & Video software mostly, some plug in manufacturers or even DAW coders may eventually chose to leverage these instruction set improvements in the future.
All this as far as building a new machine is concerned is great as any improvement for your money is always going to be a good thing. For those looking to upgrade older machines however, the small incremental improvements mean that anyone who currently owns a CPU from Ivybridge upwards is going to be hard pressed to get a justifiable upgrade by going for a more modern equivalent although the are certainly some improvements are there if your hand is forced into a new setup due to aging hardware reaching the end of its lifecycle.
For those users with more recent machines however that do require an upgrade path, the X99 platform offers a very attractive upgrade option right now, offering a solid bang per buck for those needing more performance from their system. Also worth noting is that with the extra cost caused by the Z170 platform moving to DDR4 and indeed DDR4’s ever decreasing price points, the enthusiasts X99 setups are now starting to reach price points less than a hundred pounds more than the mid-range brethren.
This all means that the X99 may offer many users more value for money overall long term and should certainly be considered by anyone considering a new studio solution at this time, if they are looking to get the longest lifespan they can from a new machine setup.