Intel coyly revealed an 8-core Tiger Lake CPU to fight AMD’s Ryzen 4000
An 8-core 11th-gen Tiger Lake could give Intel the one feature it needs to beat Ryzen 4000.
Intel has quietly confirmed that it will do an 8-core version of its 11th-gen Tiger Lake chip.
Intel’s Boyd Phelps confirmed that in addition to the quad-core 11th-gen CPUs due in October, the company will also push out an 8-core variant.
“The Willow Cove core increases the mid-level cache to 1.25MB — up from 512KB,” Phelps wrote, on the site usually associated with 12,000-word essays on avocado toast. “We also added a 3MB non-inclusive last-level-cache (LLC) per core slice. A single core workload has access to 12MB of LLC in the 4-core die or up to 24MB in the 8-core die configuration (more detail on 8-core products at a later date).”
Intel has so far only confirmed quad-core versions using what it now calls “UP3” and “UP4” designations. How the 8-core version shakes out isn’t known. Based on the deluge of Tiger Lake laptops pushed out two weeks ago, we think the approach could be similar to AMD’s.
We make that guess based on the MSI Stealth 15M gaming laptop. While most 11th-gen Tiger Lake laptops are pretty conventional 3-pound, thin-and-light laptops with integrated graphics or even Intel’s GeForce MX450, the Stealth 15M features a GeForce RTX 2060 Max-Q paired with an 11th-gen Tiger Lake CPU.
With Tiger Lake supposedly able to push 4.8GHz on single-threaded tasks and 4.3GHz with all cores lit up, the Stealth 15M could very well be competitive with Intel’s older 10th-gen, 14nm chips in many games. That also hints at the much improved thermal and processing performance of the CPU.
Intel bifurcates its chips into 15-watt U-class CPUs with up to 4 cores for most of the series, and 45-watt H-class CPUs with up to 8 cores. Both series of chips are distinctly different in capabilities and thermal needs.
AMD also has low- and high-power designations for its chips, but they’re actually the same CPUs, just tuned down for the lower thermal dissipation of a small laptop or tuned up for a thicker, larger laptop. This gives AMD an advantage in multi-core performance, with even thin-and-light laptops like Lenovo’s Slim 7 capable of featuring an 8-core chip in it.
With Tiger Lake’s improved thermals and performance, we’d think Intel may be eyeing the same approach by scaling it from thin-and-light up to gaming laptops.
Despite Intel’s emphasis on clock speed and new instruction sets, plus its Xe graphics, Intel still needs to be competitive in core count. At least we think so, because we doubt it will have the muscle to beat AMD’s 8-core chips in multi-threaded workloads. An 8-core Tiger Lake chip would possibly deliver the punch Intel needs in that one area.
First look at Intel Tiger Lake Processors and Xe Graphics.
Intel’s Architecture Day 2020 brought a first look at the company’s upcoming Tiger Lake processors, along with a more detailed preview of Intel’s foray into building its own GPUs with its upcoming Xe graphics — both of which promise to offer higher performance and lower power consumption than ever before.
These new products are a big deal for Intel for a few reasons. Intel’s been forced on the defensive the past few years, with heightened competition from AMD; its recent 7nm Ryzen 4000 chips are already ahead of Intel’s 10nm Ice Lake chips from a manufacturing standpoint and, in many cases, outperform Intel’s offerings in laptops. Intel is also facing pressure from ARM, which is starting to chip away at Intel’s control over the major computing space, with major companies like Microsoft, Samsung, and Apple beginning to offer ARM computers.
And of course, Intel recently announced that it’d be delaying its 7nm chips until at least 2022 — a major setback for its upcoming hardware releases. Intel needs a big win this fall, to show its partners and consumers alike why it’s still a force to be reckoned with in the processor world.
The company’s upcoming Tiger Lake chips (expected to be Intel’s 11th Gen Core processors under the company’s current branded scheme) are Intel’s attempt to fight back against its increased competition. It’s powered by the company’s new Willow Cove architecture, which is built on a new “SuperFin” transistor that the company promises will offer a generational type of increase that a full node shift would have offered. That’s a big promise to make, but if Tiger Lake can meet that, it could be critical for Intel, given the 7nm delay.
The result of the new 10nm SuperFin design, though, is that Intel promises Tiger Lake chips will offer dramatically better frequency speeds, while also drawing considerably less power. That means Intel will be able to offer chips that provide big performance boosts at the same voltage levels as today’s Ice Lake chips or offer comparable frequency rates while reducing power consumption.
Tiger Lake will also support a variety of new I/O standards out of the box, including Thunderbolt 4 and USB4, DDR5 RAM at up to 5400MHz (in addition to DDR4 at up to 3200MHz and LPDDR4X at up to 4767MHz), and PCIe Gen 4.0 (offering speeds of up to 8GB per second to memory).
Tiger Lake will also be the public debut of Intel’s Xe graphics — specifically, the first generation of Intel’s Xe-LP integrated graphics, which will offer up to 96 EUs (a 50 percent increase) and promises to provide similarly substantial increases over the current Gen11 graphics offered alongside its 10th Gen Ice Lake chips in both improved performance and lower power consumption.
The Xe-LP graphics will obviously offer big improvements to gaming across Intel’s lineup (especially on devices that aren’t typically focused on gaming). Intel showcased modern AAA games like PUBG, Grid, Doom Eternal, and Battlefield V running smoothly at 1080p on integrated Xe-LP graphics and noted that games that only ran on a 25W system with Gen11 were now achievable on a 15W system with Xe-LP.
Xe-LP also promises better performance for creators and display performance, with support for up to 8K UHD with HDR10 and Dolby vision panels, up to 360Hz refresh rates, and up to two times the performance for encoding and decoding video.
But Xe-LP is only a part of Intel’s graphics strategy. The company also offered an update on its Xe-HP, the higher-powered version of its graphics architecture, with a demo showing off its video-encoding skills and promising a 2021 release window. Intel announced another graphics microarchitecture: Xe-HPG, which will focus specifically on gaming and might represent Intel’s first foray into actively competing with AMD and Nvidia for gaming-focused GPUs. Xe-HPG looks to combine aspects of the other Xe architectures and will be able to offer GPU-accelerated ray tracing when it starts shipping next year.
The company also announced that it has started production of its DG1 discrete graphics card (based on the same Xe-LP technology that’ll be featured in Tiger Lake), which is set to ship later this year. That GPU isn’t really the kind of high-end graphics card that you’d typically associate with the name. It’s effectively just the integrated GPU that Intel will be shipping with Tiger Lake offered as an external card, allowing for better cooling. It’s more of a proof-of-concept for Intel’s discrete GPU ambitions (which, as mentioned above, are extensive) than the next big thing in graphics.
Lastly, Intel previewed the next wave of its roadmap for 2021. Up next for its traditional microarchitectures is its 10nm Golden Cove cores, which promises further performance improvements, AI and 5G optimization, and increased security. Golden Cove will be a key part of the newly announced Alder Lake series, which is a performance-focused hybrid chipset that will succeed in the recently released Lakefield hybrid chips.
The current Lakefield chips take a similar approach to ARM’s BIG.little technology, combining a mix of faster, more power-hungry core for performance with smaller cores for better efficiency. Today’s single Core-class Sunny Cove core (the same 10nm architecture the 10th Gen Ice Lake chips are based on) with four low-power Atom-class Tremont cores, Alder Lake will combine Golden Cove cores with Gracemont (the next-generation Atom cores, set to succeed Tremont) for even better performance and lower power consumption. That could potentially mean that Alder Lake could be coming to higher-powered laptops or even desktops in the future.