Earlier this year, AMD announced an update to its mobile processor line that we weren’t expecting quite so soon. The company updated its Ryzen 5000 Mobile processors, which are based around Zen3 and Vega cores, to Ryzen 6000 Mobile, which use Zen3+ and RDNA2 cores. The jump from Vega to RDNA2 on the graphics side was an element we had been expecting at some point, but the emergence of a Zen3+ core was very intriguing. AMD gave us a small pre-brief, saying that the core is very similar to Zen3, but with ~50 new power management features and techniques inside. With the first laptops based on these chips now shipping, we were sent one of the flagship models for a quick test.

AMD Ryzen 6000 Mobile

Zen3+ and RDNA2 Equals Rembrandt

Everyone loves a good codename, and the silicon behind these new mobile processors is called Rembrandt, following AMD’s cadence of naming its mobile processors after painters. Built on the TSMC N6 process node, Rembrandt is one of the first products to use this node enhancement and get some additional voltage/frequency benefits of the updated process. Featuring 8 Zen3+ compute cores and up to 12 RDNA2 compute units for graphics, the monolithic Rembrandt die is designed to scale all the way across AMD’s notebook portfolio, from thin-and-light notebooks down at 15 W all the way up to mobile workstation-level performance at 65 W.

AMD Ryzen 6000 Mobile CPUs
'Rembrandt' on 6nm 
AnandTech C/T Base
H-Series 35W+
Ryzen 9 6980HX 8/16 3300 5000 12 2400 45W+
Ryzen 9 6980HS 8/16 3300 5000 12 2400 35W
Ryzen 9 6900HX 8/16 3300 4900 12 2400 45W+
Ryzen 9 6900HS 8/16 3300 4900 12 2400 35W
Ryzen 7 6800H 8/16 3200 4700 12 2200 45W
Ryzen 7 6800HS 8/16 3200 4700 12 2200 35W
Ryzen 5 6600H 6/12 3300 4500 6 1900 45W
Ryzen 5 6600HS 6/12 3300 4500 6 1900 35W
U-Series 15W-28W
Ryzen 7 6800U 8/16 2700 4700 12 2200 15-28W
Ryzen 5 6600U 6/12 2900 4500 6 1900 15-28W
12 CU RDNA2 Graphics is marketed as Radeon 680M
6 CU RDNA2 Graphics is marketed as Radeon 660M

For our testing today, we have the Ryzen 9 6900HS, which is in the top tier product line but designed to be a power-optimized product that AMD uses with select partners based on a collaborative design approach. Anything with the HS at the end means that AMD has been involved in the planning, design, and optimization – the goal here is that AMD wants the HS parts, which have been selected from production with the best performance-to-power ratio, as showcasing the Ryzen brand at its best.

New Features

For this new core to move from 7nm Zen3 to 6nm Zen3+, a number of new additions to the microarchitecture have been made. Normally we consider this to be either a simple manufacturing optimization due to the process node change, or something more fundamental to the core when there’s a microarchitectural change. In this case, AMD hasn’t really discussed any specific improvements coming from the smaller process node, instead focusing on improvements made to the SoC as a whole. At the announcement of the hardware, the headline was ’50 improvements relating to power’, and with the hardware launched we now have insight into what a number of these are.

Fundamentally, the base CPU core is the same Zen3 microarchitecture as the previous generation. Clock for clock, AMD is expecting Zen3+ to behave the same as Zen3 in raw performance output/IPC, with the changes being solely at the power level. Fundamentally AMD is saying that a number of the libraries used in the design were power-optimized, while still keeping a high-frequency capability. Normally a power-optimized design kit offers low power and low area at the expense of frequency, so in reality AMD is finding what it considers to be a more optimal point in that spectrum.

AMD highlighted the following as ‘microarchitecture’ enhancements:

  • Per-Thread Power/Clock Control: Rather than being per core, each thread can carry requirements
  • Leakage: Optimized process and design elements updated for better efficiency
  • Delayed L3 Initialization: Removes the need to wait for L3 to fully wake from an idle state, making it asynchronous
  • Peak Current Control: Better control of power ramp from idle to peak to reduce stress and save power
  • Cache Dirtiness Counter: If cache misses are high (workload is bigger than L3), stay in a high power state even when low power is requested to reduce overall power use
  • CPPC Per Thread: Previously the OS was only aware of workloads per core, now is aware per-thread for finer control
  • PC6 Restore: Hardware-assisted wake-from-sleep for quick response
  • Selective SCFCTP Save: Before waking up cores, refer to utilization before PC6 sleep
  • Enhanced CC1 State: Better sleep control when core is idle

With this being a mobile chip, a lot of context here is on power saving and responsiveness when in-and-out of sleep. The concept of keeping cores at a low idle power, or moving to sleep when idle, is all in aid of enabling a device with a long(er) battery life. For example, if a core is idle for a few seconds, would it be better to put in a sleep state? This isn’t just idle frequency, but actually turning parts of the core off in a specific order – and then how and when those parts are turned back on, which has a power cost all of its own – ultimately leading to working smarter in order to conserve power usage.

On the SoC side of power matters, AMD is showcasing that Rembrandt has better control over the internal Infinity Fabric power states, better global ‘almost off’ power states, support for LPDDR5, DRAM self-refresh, panel self refresh support, support for sub-1W panels, and accelerators to help come back out of sleep states, some of which we’ve mentioned.

On the firmware and software side, AMD is aiming to make Rembrandt a better transitional experience from being connected to power to being a mobile platform. Normally Windows relies on internal power plans for ‘Balanced’, ‘High Performance’, or ‘Battery Saver’ – sometimes OEMs even have their own unique power plans on top of their own software. From AMD’s perspective, they want users to have the benefits of both High Performance and Battery Saver without having to manually adjust these power plans. Which brings us to AMD’s new Power Management Framework, or PMF.

PMF is an extension of a lot of previous notebook inputs, outputs, and controls – taking data from sensors such as skin temperature, but also SoC power, OS workloads, display information, noise profiles, then converting that into a ramping power profile that can offer anything from battery saver to high performance on a sliding scale.

The key here is that graph – normal Windows offerings have those individual three points, whereas AMD Rembrandt, on select optimized systems, will enable by default a scalable profile that will move up and down the graph depending on external factors. When speaking to AMD, they said that this would be baked into the firmware and automatically enabled when running in the Windows-standard Balanced Profile. User can manually select other profiles to force into those modes, but Balanced Profile will be the PMF sliding scale.

Users will not be able to disable PMF, but more than that, AMD states that it is up to the system vendor to announce if they are using PMF or not. Given that it's likely that few (if any) of them will bother to make that disclosure, I think this is somewhat of a frustrating decision – we can’t test this without a lever to disable it, whereas end-users won’t know if their system even has it or not.

Finally, AMD lists its updates for Rembrandt in the display power section of the chip. As we move to more efficient processors coupled with high-resolution, high refresh rate panels, the power consumption of the panel is becoming a major factor. But part of it is down to the SoC inside.

We’ve already mentioned Panel Self Refresh, the ability for a panel to update only the section that has actually changed from frame to frame, but AMD is saying that they can also do this with Freesync enabled. On top of this, Freesync allows the refresh rate during video fullscreen playback to be reduced to the native framerate of the video (e.g. 23.976Hz), thus saving power. The sub 1-watt panel support means that AMD has a list of validated panel vendors that can provide lower power panels (typically 1080p at 300 nits) for long battery life designs. Physically the new chip also implements new SVI3 regulators, which AMD claims provides a faster and more discrete control over the voltage required from the chip.

On top of this is the graphics engine itself, Rembrant moves from a Vega 8 solution to an RDNA2 solution, offering more performance and better efficiency. This extends to AMD A+A Advantage support as well, offering advanced power control when paired with an AMD discrete graphics solution.

In short, everything about the new chip is about control: going to sleep, and waking from sleep as quickly as possible.

15W vs 28W

Overall, we’re getting to a point in the laptop space where the vendors are now competing against each other on actual power consumption. Historically we would talk about U-series mobile processors at 15-28 watts, and then H-series at 45-65+ watts. In 2022, Intel has introduced P-series at 28 watts instead, and both companies are stating that due to improvements in design, the chassis that used to fit a 15-watt processor can now enable a 28-watt version.

As a result, we’re seeing some really awkward comparisons if you go by official numbers. Both AMD and Intel are comparing last-generation 15-watt solutions to current-generation 28-watt solutions, or comparing 28 watt systems today against equivalent designs that housed other processors before. Be careful when reading those first-party data points. That being said, both companies also want to exhibit their notebook processors at their best, so we end up with the higher-powered H series anyway in some nice chonky designs. It won’t be until reviewers can get their hands on the regular, run-of-the-mill U/P series hardware that they'll be able test like-for-like in the same way.

Our Review Unit

For the initial review, AMD shipped us the ASUS Zephyrus G14, one of the recent generation flagship models that are updated year-on-year with the latest hardware. We still have the G14 that was shipped with the Ryzen 4000 Mobile (Zen 2) series, although for the Ryzen 5000, AMD went with the ASUS Flow X13, which is a more ultraportable design. The G14 is still in that bracket with a slightly larger screen, slightly beefier discrete graphics, and a bit more battery. There’s even an AniMe Matrix display on the back.


AMD has paired each of these designs with the HS-branded processors. The HS models are tuned and optimized parts that AMD co-calibrates inside flagship notebook designs with its partners, so it becomes the obvious choice for AMD to sample laptops based on these chips for each launch for review. Not only that, depending on the thermal design of the laptop, the actual power setting provided by the vendor can change based on the design. We’ve had the following in for test:

  • Ryzen 9 6900HS in an ASUS Zephyrus G14 (45W Default, 65W Turbo) + RX 6800S GPU
  • Ryzen 9 5980HS in an ASUS Flow X13 (15W Default, 35W Turbo) + GTX 1650
  • Ryzen 9 4900HS in an ASUS Zephyrus G14 (35W Turbo) + GTX 2060 GPU

As with most laptop processor launches, despite the rated TDP on the official processor listing, it’s up to the OEMs to configure and tune the exact performance to the cooling on each unit. This makes comparisons, aside from simply ‘chip vs chip’, quite difficult, as simply adjusting the processor frequency (rather than any other frequencies) has a direct impact on any IPC or performance-per-watt comparison. As a result, we rely on end-performance numbers based on the CPUs as shipped – but we’ve also tested the 6900HS in 35W mode just to see the difference.

The other big factor in our ASUS Zephryus G15 is going to be the DDR5 memory. As we’ve seen on other platforms, moving to DDR5 can cause a variety of changes in performance for both CPU and gaming – it depends how memory bandwidth dependent the tests were. This is even more true for AMD, given that the memory frequency is also tied into the infinity fabric frequencies inside the processor. Over time AMD has disaggregated the two, but there’s still a level of synchronicity involved with additional dividers, meaning that memory frequency is still an important factor.

Core-to-Core, Cache Latency, Ramp
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  • Kangal - Sunday, March 6, 2022 - link

    Zeno, Guards of Zeno, Grand Priest, Whis/Angels, Awakened Gass, Ultra Granolah, Ultra Instinct Goku, Beerus/GoDs, Fused Zamasu, Prime Moro, Raged Broly, Ultra Ego Vegeta, Full-power Jiren, LSS Kefla, Destruction Toppo, Max Hit, Anilaza, SSJ Rose Black, Golden Frieza, Dyspo, LSS Kale, Spirit Future Trunks, Super Ribrianne, Trained #17, Ultimate Gohan, Buu, Seven-Three.
  • GeoffreyA - Monday, March 7, 2022 - link

    Astonishing, and thanks for that! Remembering only Buu, Ultimate Gohan, and a bit of Beerus, I am really out of touch with DB canon!
  • Kangal - Tuesday, March 8, 2022 - link

    You can find the new series Dragon Ball Super online or even youtube. There is also the official manga which you can read for free* here:

    *only the latest three issues available, new issues always free.
  • GeoffreyA - Tuesday, March 8, 2022 - link

    Thanks, I only saw the first 10-15 episodes of Super in 2018, where Beerus came to the cruiseship, and still hope to watch the rest of it, eventually. It was nostalgic, I remember, seeing these dear characters after so long.
  • mode_13h - Wednesday, March 9, 2022 - link

    Eh, I only watched the original series. The few things after it that I had seen lacked the same charm. And among that series, the first season was one of the best. The censors had clearly cracked down on it, after that.

    What I thought worked so well about the original DB was Goku's innocence, ignorance, indomitable spirit, and purity of heart. That made it so much more entertaining and gratifying to see him overcome all the obstacles and enemies he encountered. And it's almost as if not knowing his own limitations made him unrestrained by them.
  • GeoffreyA - Thursday, March 10, 2022 - link

    That's an exact description of Goku's character and is likely the secret of his greatness and why he often prevailed over his enemies. I would add that forgiveness was another trait of his, and something they could never understand. It's almost paradoxical, at least in DBZ, how he was the comic clumsy figure, and yet when it came to saving the world, only he could do it. Without knowing it, people are emulating, I feel, more of Vegeta's cynical character today. What the world needs is more of Goku.
  • mode_13h - Friday, March 11, 2022 - link

    I haven't watched much since the mid 2000's, but I thought Luffy, in One Piece, had a similar personality. However, he seemed to have a mercurial wisdom and canniness, just beneath the surface. In that regard, he seemed to have echos of Irresponsible Captain Taylor.

    I don't remember too much of Naruto, though I had started watching it from the beginning. Like Goku, he also had an innocence and indomitably, but there was obviously a darkness about him and inside of him.

    I wouldn't have patience for any of that, now. Even at the time, it seemed rather excessively drawn out.

    BTW, did you see the live action DB movie? I think it was made around 2008? More of a Hollywood movie; not Japanese. I'm apparently among the small minority who actually liked it. It helps to remember that Dragon Ball itself is loosely based on the ancient tale of Saiyuki and just don't expect a direct translation from the TV series or manga. It's very much a reinterpretation, but I enjoyed it.
  • GeoffreyA - Monday, March 14, 2022 - link

    Luffy is very like Goku, regarding his innocence, simplicity, and goodness, but yes, he had another element which is hard to pin down. Perhaps a certain stoic quality that clicked on at times, and made him something fearful to all those who practised evil. (It's even evident when they left the Merry; Goku would never have operated like that, and for my part, I agree with Usopp.) I really loved One Piece. It could often be tedious and silly, but once the story knocked into gear, it was usually astonishing, and gave you the feeling of being on an adventure with noble companions. Namaka. My favourite arcs were Arlong/Nami, Arabasta, and Water 7. In 2018, I got stuck at Thriller Bark and never went on.

    What caused me to stop was seeing Evangelion for the first time that year. It left me a sadder, more sober person for ever; and I'll add a word of warning to others, Eva is terribly depressing and no joke. That and Steins;Gate are my favourite anime. I've heard great things about Naruto but to this day have not seen a single episode. Rurouni Kenshin was nice.

    My brother really enjoyed the live-action Dragon Ball, but though I've seen only bits and pieces, I always debate with him that it's not the real DB! He contends that it's pretty good. Well, perhaps I need to sit down and actually watch it and give it a proper appraisal.
  • mode_13h - Tuesday, March 15, 2022 - link

    Wow, all those One Piece names are definitely a flashback. I hung out with some Kenshin fans, so I saw the entire original series.

    Evangelion was pretty mind-blowing for me, when the original series first aired. A bit confusing, especially with the movies, the revisionist ending, and whatnot.

    More recently, I went to a marathon showing of the original series, back when they started releasing the new version. I watched the first 2-3 installments of the new version and just quit. It got too absurd for me. I never liked the direction Gainax took with FLCL, but I guess it was inevitable the new Eva would go there (and lose me). I did really like Kare Kano and Chobits (lol, they seemed to have HDDs inside!).

    I got a lot from Evangelion, but I'm pretty much over it. Not unlike how I parted ways with the Star Wars franchise, more than a decade ago. I just don't need it. I don't seem to have trouble finding enough to watch. For instance, a movie I recently enjoyed was Arrival.

    Even the news is like a high-tension drama, for at least the past half decade. I can really feel like I'm living through history. It gives me a new perspective on much of the past century and what it was probably like, at the time.

    Some other old anime that's fun to re-watch are the original Patlabor OAV series and movies, Akira, and the Ghost in the Shell series and movies. And every time I hear about space junk in the news, my mind goes back to Planetes.
  • GeoffreyA - Tuesday, March 15, 2022 - link

    Evangelion is indeed out of this world. It's really the sadness of the characters that touched me, though of course the relentless, minimal action was impressive when it came. Can anyone ever forget Eva-01 breaking out of the shadow space in episode 16, or the time, nearing the end, when it reactivates though its power is gone? The new movies' weakness is that they tried to spin everything out to excessive detail, whereas the series' strength was minimalism. The characterisation, too, was subtly altered. Anyhow, last year I watched the final film, Thrice upon a Time, and can honestly say they did a good job and ended Eva on a surprisingly cheerful note, with a good message. I secretly hope for a return someday.

    I haven't seen most of the anime you mentioned, except for Akira and Ghost in the Shell. Suffice to say, Akira leaves the viewer speechless.

    Same here. Lost my interest in Star Wars and don't care to see it again. Arrival was great, with a good performance by Amy Adams. And talking of Villeneuve movies, the new Dune was a big disappointment to me.

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