Intel 11th Generation Core Tiger Lake-H Performance Review: Fast and Power Hungry
by Brett Howse & Andrei Frumusanu on May 17, 2021 9:00 AM EST- Posted in
- CPUs
- Intel
- 10nm
- Willow Cove
- SuperFin
- 11th Gen
- Tiger Lake-H
Last week Intel launched their Tiger Lake-H family of laptop processors. Aimed at the larger 14-inch and above laptops, this processor family is Intel’s newest offering for the high-performance laptop market, stepping in above Intel’s mobility-focused U and Y series of chips. Based on the same Tiger Lake architecture that we first became familiar with last year, Tiger Lake-H is bigger and better (at least where the CPU is concerned), offering up to 8 CPU cores and other benefits like additional PCIe lanes. Overall, Intel’s H-series chips have long served as the performance backbone of their laptop efforts, and with Tiger Lake-H they are looking to continue that tradition.
While last week was Tiger Lake-H’s official launch, as has become increasingly common for laptop launches, the embargoes for the launch information and for hardware reviews have landed on separate dates. So, while we were able to take about the platform last week, it’s only today that we’re able to share with you our data on TGL-H – and our evaluation on whether it lives up to Intel’s claims as well as how it stacks up to the competition.
Like Intel’s other laptop chips, Tiger Lake-H has multiple facets, with the company needing to balance CPU performance, GPU performance, and power consumption, all while ensuring it’s suitable to manufacture on Intel’s revised 10nm “SuperFin” process. Balancing all of these elements is a challenge in and of itself, never mind the fact that arch-rival AMD is looking to compete with their own Zen 3 architecture-based Ryzen 5000 Mobile (Cezanne) APUs.
Intel Tiger Lake-H Consumer | ||||||||||
AnandTech | Cores Threads |
35W Base |
45W Base |
65W Base |
2C Turbo |
4C Turbo |
nT Turbo |
L3 Cache |
Xe GPU |
Xe MHz |
i9-11980HK | 8C/16T | - | 2.6 | 3.3 | 5.0* | 4.9 | 4.5 | 24 MB | 32 | 1450 |
i9-11900H | 8C/16T | 2.1 | 2.5 | - | 4.9* | 4.8 | 4.4 | 24 MB | 32 | 1450 |
i7-11800H | 8C/16T | 1.9 | 2.3 | - | 4.6 | 4.5 | 4.2 | 24 MB | 32 | 1450 |
i5-11400H | 6C/12T | 2.2 | 2.7 | - | 4.5 | 4.3 | 4.1 | 12 MB | 16 | 1450 |
i5-11260H | 6C/12T | 2.1 | 2.6 | - | 4.4 | 4.2 | 4.0 | 12 MB | 16 | 1400 |
*Turbo Boost Max 3.0 |
Intel’s Reference Design Laptop: Core i9-11980HK Inside
For our Tiger Lake-H performance review, Intel has once again sent over one of their reference design laptops. As with the Tiger Lake-U launch last year, these reference design laptops are not retail laptops in and of themselves, but more of an advanced engineering sample designed to demonstrate the performance of the underlying hardware. In this specific case, the BIOS identifies that the laptop was assembled by MSI.
Wanting to put their best foot forward in terms of laptop performance, Intel’s TGL-H reference design laptop is, as you’d imagine, a rather high-end system. The 16-inch laptop is based around Intel’s best TGL-H part, the Core i9-11980HK, which offers 8 Willow Cove architecture CPU cores with SMT, for a total of 16 threads. This processor can turbo as high as 5.0GHz on its favored cores, a bit behind Intel’s previous-generation Comet Lake-H CPUs, but keeping clockspeeds close while making up the difference on IPC.
Unfortunately, their desire to put their best foot forward means that Intel has configured the CPU in this system to run at 65W, rather than the more typical 45W TDP of most high-end laptops. 65W is a valid mode for this chip, so strictly speaking Intel isn’t juicing the chip, but the bulk of the Tiger Lake-H lineup is intended to run at a more lap-friendly 45W. This gives the Intel system an innate advantage in terms of performance, since it has more TDP headroom to play with.
Intel Reference Design: Tiger Lake-H | |
CPU | Intel Core i9-11980HK 8 Cores, 16 Threads 2600 MHz Base (45W) 3300 MHz Base (65W) 5000 MHz Turbo 2C 4500 MHz Turbo nT |
GPU | Integrated: Xe-LP Graphics 32 Execution Units, up to 1450 MHz Discrete: NVIDIA GeForce RTX 3060 Laptop 30 SMs, up to 1703MHz |
DRAM | 32 GB DDR4-3200 CL22 |
Storage | 2x OEM Phison E16 512GB SSD (NVMe PCIe 4.0 x4) |
Display | 16-inch 2560x1600 |
IO | 2x USB-C 2x USB-A |
Wi-Fi | Intel AX210 Wi-Fi 6E + BT5.2 Adapter |
Power Mode | 65 W (Mostly tested at 45W) |
Meanwhile the focus on CPU performance with TGL-H does come at a cost to integrated GPU performance. TGL-H parts include Intel’s Xe-LP GPU, but with only 32 EUs instead of the 96 found on high-end Tiger Lake-U systems. With TGL-H, Intel is expecting these systems to be bundled with discrete GPUs, so they don’t dedicate nearly as much die space to an integrated GPU that may not get used much anyhow. To that end, the reference system comes with an NVIDIA GeForce RTX 3060 Laptop graphics adapter as well, which is paired with its own 6GB of GDDR6.
Rounding out the package, the system comes with 32GB of DDR4-3200 installed. Storage is provided by a pair of Phison E16-based OEM drives, allowing Intel to show off the benefits of PCIe 4.0 connectivity for SSDs. Finally, Wi-Fi connectivity is also Intel-powered, using the company’s new AX210 adapter, which offers Wi-Fi 6E + BT5.2 on a single M.2 adapter. It’s worth noting that the AX210 is a fully discrete adapter, so it doesn’t leverage TGL-H’s integrated (CNVi) MAC, as that doesn’t support Wi-Fi 6E.
And, in keeping with making this reference system look as close to a retail design as reasonably possible, Intel even put the usual Intel Core and NVIDIA GeForce stickers on the laptop.
Unfortunately, we’ve had relatively little time with the system ahead of today’s embargo. The embargo on performance figures was originally scheduled for last Thursday (May 13th). However due to delays in shipping these laptops to reviewers, we didn’t receive the system until the end of last week, and Intel bumped back the embargo accordingly. So with just over two days to look over the system, we’ve really only had a chance to take a look at the most critical aspects of the system when it comes to performance.
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Bbdffd - Tuesday, May 18, 2021 - link
I think AMD still not able to defeat intel in Gaming even with their 7nm processor (5980hs).Cooe - Thursday, May 20, 2021 - link
"The performance lead against AMD’s strongest mobile CPU, the 5980HS"The 35W R9 5980HS is NOT AMD's strongest mobile CPU Brett. That would be the 45W unlocked & higher clocked R9 5980HX. I expect better from AnandTech... -_-
Spunjji - Thursday, May 20, 2021 - link
It is a little bit complicated... the 5900HX appears to beat the 5980HS by a little way in multi-thread tests but fall behind in single-thread, and if you look at things in performance-per-watt terms the 5980HS is easily the strongest. There's also the fact that there don't seem to be any shipping devices with the 5980HX in them. Strange times.ottonis - Friday, May 21, 2021 - link
So well, according to Intel's advertising materials, their new 11th gen Tiger Lake based 8c mobile CPUs were supposed to wipe the floor with AMD.Well... not really, according to this review, at least not within the same power consumption envelope and in multicore tasks.
block2 - Monday, May 24, 2021 - link
Running Intel at 35w if possible would be interesting.Unclear on quick read if external GPUs were disabled so that these tests aren't in reality a GPU test.
JayNor - Friday, May 28, 2021 - link
news out today in tomshardware that there is a B series of the 8 core TGL that boosts to 5.3GHz. This is even for parts with the GPU ...mode_13h - Saturday, May 29, 2021 - link
About right, for a desktop CPU.Makste - Monday, May 31, 2021 - link
This is a NUC part, not a laptop part.mode_13h - Tuesday, June 1, 2021 - link
Not really. NUCs normally use the U-series notebook CPUs. That's all a NUC is -- a notebook CPU in a compact enclosure.NUC Extreme is something completely different. They're more like a normal desktop PC, and the latest NUC Extreme that Intel just announced is the one that will use these H-series CPUs.