- 4.2-4.5GHz quad-core chip with Hyper-Threading
- 91W TDP
- Intel HD Graphics 630
- 8MB cache
- Manufacturer: Intel
- Review Price: £349.99
WHAT IS THE INTEL CORE I7-7700K?
The i7-7700K is the most powerful processor of Intel’s new “Kaby Lake” generation of desktop processors. A direct successor to the Skylake 6700K, this new model sees higher clock speeds, improved graphics performance and a slightly more efficient architecture.
Note: I haven’t had my i7-7700K review sample for long enough to run a full suite of tests on it, or to fully stretch its overclocking ability. As a result, this review will not feature a final score. I’ve run enough benchmarks to come to an early conclusion, however.
INTEL CORE I7-7700K – SPECIFICATIONS, TECHNOLOGY AND CHIPSET
The seventh generation of Intel Core chips should offer a minor improvement on the sixth-generation processors. There have been no wholesale changes in terms of physical design; the chip has been produced using largely the same 14nm (nanometre) fabrication process as the fifth- (Broadwell) and sixth-generation (Skylake) chips.
In simple terms, the smaller the process, the more efficient and therefore powerful a processor can be. Intel calls the process used on Kaby Lake chips “14nm+”, with each individual transistor benefiting from a taller, thinner design for increased efficiency.
With the i7-7700K, we can measure how much of an improvement Intel has made with Kaby Lake: it’s the most powerful chip on the market with all the features you’d expect of a desktop processor.
Those looking for a significant speed boost will be disappointed, however, and anybody running a sixth-generation i7-6700K will have few reasons to upgrade. Those running third- or fourth-generation Core i7 chips will see a decent increase in performance, though.
For more information on Kaby Lake, including a full list of Kaby Lake processors for both laptops and desktops, read our Kaby Lake explainer.
So what’s new? At its most basic, this chip has a higher base clock speed thanks to the efficiency gains made possible by the Kaby Lake architecture. Where the 6700K had a base clock speed of 4GHz, the 7700K manages 4.2GHz.
In addition, the maximum Turbo Boost clock speed – which dictates how fast any given core can go – has been increased to 4.5GHz from 4.2GHz in the old model. That’s a decent jump in performance for a processor that has the same 91W TDP (thermal design power) as its predecessor.
On-board graphics performance has been improved as well, with Intel HD Graphics 630 replacing the 530 from last year. As you’ll see from my benchmarks, though, this is no speed demon.
If you’re upgrading your desktop from a sixth-generation Intel Core processor, your current motherboard should be able to accommodate a seventh-gen chip. This will almost certainly require a BIOS update, so you should check your motherboard manufacturer’s website to see whether compatible firmware has been released. Asus released Kaby Lake-compatible firmware for our Z170-Deluxe motherboard in December.
If you’re starting afresh, you can now pick from a new array of motherboards that includes the Z270 chipset. This new chipset is similar to the Z170, with extra PCI-E lanes to improve performance on systems with high-performance storage and graphics hardware.
Kaby Lake also supports Intel Optane, which offers a way to speed up performance on the cheap. It supports low-capacity, high-performance SSDs to boost the performance of slow hard disks.
Intel has also improved overclocking, both in terms of performance and stability. This should make it far easier to push big speed boosts without spending time obsessing over voltages.
You get the same quad-core architecture with Hyper-Threading, allowing for more efficient multi-tasking and performance-heavy tasks such as 3D and video rendering.
INTEL CORE I7-7700K – PERFORMANCE
I’ve not run a full suite of benchmarks on the i7-7700K, but I’ve gathered enough data to present a reasonable picture of how it performs compared to its predecessors.
I benchmarked the processor in our regular test rig. It differs slightly from the hardware TrustedReviews used to benchmark Skylake processors, but it’s similar enough to present an accurate comparison.
TrustedReviews’ benchmark PC specs:
- Intel Core i7-7700K
- Asus Z170-Deluxe (Asus Z170-A last year)
- Samsung 850 Evo SSD
- Corsair Hydro H100i liquid cooler (supplied by Overclockers)
- 16GB Corsair Vengeance DDR4 memory
- No graphics card
The best way of obtaining a quick and easy performance measurement is by running Maxon Cinebench – a benchmark that tests a system by rendering a highly detailed 3D scene.
I ran the test without any GPU assistance, so the scores achieved represent raw processor performance that most accurately reflects the differences between Skylake and Kaby Lake. The Cinebench benchmarks results in two scores: one for single-core performance and another for multi-core performance.
The graphs above show that, at stock speeds, the Core i7-7700K can outperform the i7-6700K by 8.2% in single-core loads and 9% in multi-core loads. All four cores were able to sustain the maximum 4.5GHz Turbo Boost speed for the entire benchmark.
Keeping in mind that the maximum speed of the 7700K is only around 7% higher than the 6700K, the new chip looks to be grabbing extra performance as a result of other efficiency gains, not just from its higher clock speed. That’s good news if correct, although because the systems aren’t identical there is the possibility of our current test rig helping things along a little. For my full review I’ll revisit the 6700K on our current test system and see if the results correlate.
Owners of the fourth-generation (Haswell refresh) Intel Core i7-4790K will be heartened to see that if they upgrade now, they’ll net an extra 23.4% of performance. It will cost you, but if you run intense multimedia operations such as rendering, the reduction in processing time will be significant.
For an apples-to-apples comparison, I also clocked the 7700K to the same speeds as the 6700K, limiting it to 4.2GHz. At these speeds, the 7700K managed a score that was 3.1% higher than that of its predecessor. Again, I’ll have to investigate whether this is down to the slightly different test system in use this time around.
I also ran some quick overclocks on the 7700K. This wasn’t in-depth tweaking, but simply using Asus’ super-simple EZ Tuning Wizard, which found an easy 4.9GHz overclock in a few mouse clicks.
A combination of the wizard and Corsair’s decent H100i liquid-cooling saw the chip pull off this overclock with relative ease; it managed significantly better scores in both Cinebench multi- and single-core tests, equating to a 7.9% performance increase on an 8.2% clock speed increase at a peak temperature of 76oC.
Our original 6700K review didn’t test overclocking performance so I can’t make a like-for-like comparison, but I can say that 4.5-4.6GHz seems to be the prevailing overclock on the older model.
INTEL HD GRAPHICS 630 PERFORMANCE
Intel consistently under-delivers when it comes to on-board graphics performance on its processors, and things are no different this time around.
I ran the BioShock Infinite benchmark at Full HD resolution and Medium settings and achieved an average frame rate of just 23.5fps. This is just 10.2% faster than HD Graphics 530 found on last year’s model.
Intel would say that buyers of its high-end chips always pair up their processor with a dedicated graphics card, which is probably true. However, since every single chip in the Kaby Lake desktop range gets the same graphics chipset, this result will be the same across the range.
Sure, the processor is capable of adequate performance at lower resolutions in lower-end games such as MOBAs, but it’s still a long way behind what AMD’s on-board Radeon graphics can muster.
What’s more, this lack of performance will come to bear in other intensive tasks such as video editing and 3D work. You’ll have no choice but to invest in dedicated graphics hardware.
The Core i7-7700K achieves decent performance improvements over its predecessors, but without much to shout about.
Its performance likely represents the whole Kaby Lake range – and decent performance increases at the same power-consumption levels shouldn’t be sniffed at.
However, without strong competition from AMD in this price bracket and power-consumption class, Kaby Lake is fighting a battle pretty much exclusively with its predecessors, which hardly makes for a riveting competition – or, indeed, motivation to push the performance envelope.
The same goes for graphics capabilities, which continue to underwhelm.
The one area where Kaby Lake, and its unlocked “K” processors, could take a significant step forward is with overclocking. It’s looking very promising so far, but I’ll need more time with the processor to put it through its paces before coming to a final verdict.