Core i7-11700KF processor review
Good, but is it good enough?
We’re back at eight Cypress Cove cores brah; this time, we test a more reasonable priced 8-core part, the Core i7 11700KF. That K means it is unlocked that F means better value as you can shave off a few bucks. This F suffixed processor does not have its integrated graphics activated; it has an MSRP of 380 USD. Will it be enough to take on the Ryzen 7 5800X battle?
Rocket Lake-S has had a rocky launch alright; energy levels and heat are all over the place. Much in my previous reviews, I like to reiterate, it ain’t all bad at all. It’s pretty impressive what Intel manages to pull from a 14nm baked processor but also fights the issue that comes with that same node. At 380 USD, you can purchase this eight-core processor. Mind you; we tested the KF model, which means the IGP (on-board graphics) has been disabled, which shaved off 25 bucks of the purchase price otherwise. The K means unlocked for further tweaking. So that’s 48 USD per core. But previous reviews have learned that overclocking might be ill-advised anyway. The processor is SMT enabled as well (hyper-threading) and thus offers 16-threads. The Rocket-Lake-S 11th generation series processors have been the topic of much debate the past few months. Intel making a move towards PCIe Gen 4.0 (on the processor’s lanes, but not mobo-chipset) and making a shift towards new Cypress Cove CPU cores (which technically are Sunny Cover cores, you know, from 10nm Tiger Lake). Yes, Intel has been unable to move towards 10nm for its fabrication process, so again this is a processor series that is fabbed on 14nm. While the performance is there, the bigger that number, the more extensive power consumption, and heat will be. It’s been a hell of a time and a hell of a ride for Intel. To date, they cannot meet the incredible demand for their wide portfolio of processors and chipsets. AMD is breathing down its neck for a few years now with Ryzen, and Ryzen 5000 is/was effectively the fastest IPC-based processor series with proper TDP. And as this review will prove, they still are. AMD moved towards the 7nm fabrication node completely and reaps that node’s fruits; Intel has a tough time breaking away from 14nm. Initially, they wanted to move to 10nm, but that has proven impossible for various reasons. Something had to change, though, and for Intel, that had to be its architecture. For the laptop parts, there’s tiger lake on 10nm, with Golden Cove CPU cores. Here’s what Intel did, they took these CPU cores (which offer more IPC) and reversed engineered them back (ported if you will) towards 14nm. And that my friends are what is now called Cypress cove cores, the cores that Rocket-Lake-S series processors now use. So while they gain the generational performance increase in IPC, they still have to face the fact that they’re on 14nm, which means high voltages, high (and hungry) clock frequencies, and energy efficiency getting a thing on its own.
- Skylake, Core 6th Gen – August 2015
- Kaby Lake, Core 7th Gen – January 2017
- Coffee Lake, Core 8th Gen – October 2017
- Coffee Lake Refresh, Core 9th Gen – October 2018
- Comet Lake, Core 10th Gen – April 2020
- Rocket Lake, Core 11th Gen – March 2021
I had to look this up and think a bit back in time to see and remember what the first 14nm product was, and that was 2015 where Intel released its Skylake architecture. The good news is, though, that RKL will be the last in that long line of 14nm products. Intel is listing the procs at 125 Watt, not bad for fast 6- and 8-core parts. However, in pale comparison, a Ryzen 9 5950X with its 16 cores is rated 105 Watts on TDP. Next to that, Intel is using multiple power states. That TDP might be 125 Watt, but the flagship Rocket-Lake-S processor has a secondary PL2 state where it can utilize 250 Watts of power for almost a minute, and motherboard manufacturers are free to tweak that timeframe even longer. It is a bit worrying perhaps, but then again, most of us don’t really care too much about TDP; performance is where it’s at. The generational increase for RKL brings new benefits to the eco-system and AVX512, support for 20 PCIe 4.0 lanes from the CPU, and faster memory support. The new Z590 chipset-based motherboards have native USB 3.2 Gen 2×2 (20 Gbps) and get a doubled up bandwidth link from CPU to the chipset, moving from DMI x4 to DMI x8, but still a PCIe Gen 3.0 x8 link. The flagship successor to CML, aka Comet Lake, now RKL Rocket Lake with the flagship model Core i7-11900K, has eight cores and can reach a turbo frequency 5.2 GHz even 5.3 GHz with proper cooling (Velocity Thermal Boost) on selected CPU cores.
|i5-11400F||6C / 12T||2.6 GHz||4.2 GHz||65W|
|i5-11600K||6C / 12T||3.9 GHz||4.6 GHz||125W|
|i7-11700K||8C / 16T||3.6 GHz||4.6 GHz||125W|
|i9-11900K||8C / 16T||3.8 GHz||4.8 GHz||125W|
The 11th generation into Core desktop processors runs up to 8 cores, which’s two down from 10th generation processors. Likely, Intel needed the transistor space on 14nm for the increase in IPC, bigger Tier1 and 2 caches, and of course, the new Xe-based integrated graphics solution. The processor socket sticks towards 1200 pins, aka LGA1200. After a BIOS update, Z490 will also be compatible with 11th Gen processors, be sure to check out compatibility with your motherboard manufacturers. Among the main features, we have HyperThreading through the entire line of Core products, so that’s from Core i3 to Core i9, up to 8 cores and 16-threads, and up to 5.3GHz for a limited core boost if your cooling allows the processor to do so. The new Z590 motherboards will last for Comet Lake-S (last gen) and Rocket Lake-S (11th-gen).
In this review, we check out the slightly more value 8-core part (compared to 11900K that is); it has a 4.6 GHz All core turbo tied to a 125W TDP; however, it is possible to alter these power limits as PL1 and PL2 states are not considered “overclocking” by Intel, and that means you’ll see a lot of varying performance on the several motherboard brands. Core i7-11700KF has 8-cores/16-threads clocked at 3.6 GHz, with an up to 5.0 GHz Turbo Boost and 4.6 GHz all-core boost. Each core has a 512 KB dedicated L2 cache, and the cores share 16 MB of L3 cache.