In a surprising twist, AMD has today announced that it intends to enable Ryzen 4000 and Zen 3 support on its older B450 and X470 Motherboards. This is going to be a ‘promise now, figure out the details later’ arrangement, but this should enable most (if not all) users running 400 series AMD motherboards to upgrade to the Zen 3 processors set to be unveiled later this year.

Background

When AMD launched the Ryzen 3 3300X and Ryzen 3 3100 processors, it also gave users details about the upcoming B550 chipset that these processors were targeted for. Part of that announcement included a chart, showing how due to BIOS limitations, certain chipsets would only support certain AM4 processors. X570, for example, would support previous Ryzen 2000, current Ryzen 3000, and future Ryzen 4000 processors – it did not support the original Ryzen 1000 processors.

On that chart, it was noted almost immediately that there was a glaring omission. AMD’s B450 and X470 motherboards were listed as supporting Ryzen 1000/2000/3000, but not the future Zen3-based Ryzen 4000 processors. This made a number of users immediately very concerned, especially if they had purchased a B450 or X470 motherboard with a Ryzen 3000 processor with the hopes to upgrade it in the future.

AMD came under a lot of fire. The company had originally promised that it would support the AM4 platform from 2016 through 2020 (or ‘through to’ 2020). A lot of users had assumed that this meant any AM4 platform based motherboard would be able to accept any processor made from 2016 to 2020, including the new Zen 3 processors set to be unveiled later this year. The fact that there was a discrepancy between what the users expected and what AMD had been saying essentially became a miscommunication or a misunderstanding, but one that had a negative effect on a number of users who were expecting to upgrade the system.

Ultimately the reason for the lockout was down to the BIOS size. Each generation of processors require a portion of the BIOS space for compatibility code – normally if you can support one processor from a generation, then you can support them all. We are also in the era of graphical interface BIOSes, and as a result some of the BIOS code was reserved for fancy menus and the ability to adjust fan curves or update the BIOS in a more intuitive way. All of this takes up space, and some vendors ditched the fancy graphics in order to support more processors.

Most AMD motherboards are outfitted with 128 megabit (16 megabyte) BIOS chips. The reason why this is the case is due to a limitation on some of AMD’s early AM4 processors – due to design, they can only ever address the first 16 megabytes of a BIOS chip. So even if a motherboard vendor had a larger BIOS chip, say MSI had a 32 megabyte chip, then it would actually operate like two partitioned BIOSes and it would get very complicated. There is no easy way to support every AM4 processor with a simple 16 megabyte BIOS.

By our estimate there are 84/86 current processors on the AM4 platform in total, counting Ryzen Pro parts as well. These are set across several families (A-Series, Zen, Zen APU, Zen+, Zen+ APU, Zen2, Zen2 APU, etc), each with their own AGESA platform to deal with, which all has to go into the BIOS. This is what makes it such a tight squeeze.

As a result AMD initially made the decision that the B450/X470 motherboards would support the Ryzen 1000, Ryzen 2000, and Ryzen 3000 processors, but would not be able to support any more due to this limit. AMD ultimately wanted the 500-series chipsets, the B550/X570, to be a launchpad for the future Ryzen processors.

AMD’s Announcement Today

AMD today is reversing its decision to limit the BIOSes on the 400-series chipsets. To cut a long story short, the TL;DR mantra from AMD is:

‘We’ve heard our audience, and we understand the concerns. We are going to work out a way to support Zen 3 on our 400-series chipsets between now and launch – we’re still working out the what and the how, but we will update you closer to Zen 3 launch’.

They are acknowledging that they perhaps misread the situation from its user base. Part of this issue stems from an old CPU line not having the growth room, and the believed that pushing support for Zen 3 to the 500-series wouldn’t be that big of an issue. Now that they see it is, they will try to make it work. They will attempt to address the technical challenges, and even though they do not have all the details at this time, it will be worked on.

There is still 6+ months (?) until we see Zen 3, so they do have a lot of time to try things and to test things.

In conversations with AMD, we also discovered more insight into what this entails.

As most motherboards have 16 MB, and the CPUs can only address the first 16 MB of a BIOS chip, then we might see an issue where 400-series motherboards may end up having two ‘forked’ BIOSes – one for ‘up to Ryzen 3000 inclusive’ and one for ‘Ryzen 3000 and beyond’. The former one will likely be a default BIOS, which will be picked up by auto-update software, however the latter will likely always be a Beta BIOS, and it will require user intervention.

AMD will enable the ODM partners with the feature – partners like ASUS, GIGABYTE, Dell, HP, MSI, Lenovo, etc. However, it will be up to the ODM partner to actually enable it as a feature for their motherboard or pre-built system. If they’re not willing to complicate matters with this BIOS fork, then unfortunately you are out of luck. It is believed however that if most of the vendors are onboard straightaway, then the rest will follow. AMD will be offering continual support to its ODM partners on this, especially those with auto-update software.

There might be a situation where moving up to the beta BIOS fork will make the system unable to downgrade. It might end up being a one-way solution. It might even be a hard changeover – with the mainline supporting 3000 and below, and the fork 4000 and up. In this event, I asked AMD if they would be expanding the Boot Kit program as they did with Ryzen 2000, and lending CPUs to users that needed them to update. AMD stated that this might be a possibility, but they haven’t worked on those details at this time.

AMD reiterated to AnandTech that after the launch of B550 into the market, they do recommend the B550 motherboards as the best option for Ryzen 4000 support in upgrades. However they will be working towards supporting Ryzen 4000 on 400-series chipsets for current users in that market, and to enable customers who want to go along that upgrade path. It is worth reiterating that even with Zen 3 CPU support, B450/X470 boards will likely be limited to PCIe 3.0 due to the design.

AMD also re-confirmed that we are set to see Zen 3 processors in 2020.

AMD AM4 Motherboard Support
AnandTech uArch A320 B350
X370
B450
X470
X570 B550
Ryzen 4000 CPU Zen 3 X X Beta
Ryzen 4000 APU** Zen 2 X ? ? ? ?
Ryzen 3000 CPU Zen 2 X Beta
Ryzen 3000 APU Zen+ X
Ryzen 2000 CPU Zen+ X
Ryzen 2000 APU Zen X X
Ryzen 1000 CPU Zen X X
Athlon A-Series * X X X
Ryzen Pro CPUs follow their non-Pro equivalents
* Excavator or Carrizo
** Unknown - product not announced yet

AMD's full press release is given below.

As we head into our upcoming “Zen 3” architecture, there are considerable technical challenges that face a CPU socket as long-lived as AMD Socket AM4. For example, we recently announced that we would not support “Zen 3” on AMD 400 Series motherboards due to serious constraints in SPI ROM capacities in most of the AMD 400 Series motherboards. This is not the first time a technical hurdle has come up with Socket AM4 given the longevity of this socket, but it is the first time our enthusiasts have faced such a hurdle.

Over the past week, we closely reviewed your feedback on that news: we watched every video, read every comment and saw every Tweet. We hear that many of you hoped a longer upgrade path. We hear your hope that AMD B450 and X470 chipsets would carry you into the “Zen 3” era.

Our experience has been that large-scale BIOS upgrades can be difficult and confusing especially as processors come on and off the support lists. As the community of Socket AM4 customers has grown over the past three years, our intention was to take a path forward that provides the safest upgrade experience for the largest number of users. However, we hear you loud and clear when you tell us you would like to see B450 or X470 boards extended to the next generation “Zen 3” products.

As the team weighed your feedback against the technical challenges we face, we decided to change course. As a result, we will enable an upgrade path for B450 and X470 customers that adds support for next-gen AMD Ryzen™ Processors with the “Zen 3” architecture. This decision is very fresh, but here is a first look at how the upgrade path is expected to work for customers of these motherboards.

  1. We will develop and enable our motherboard partners with the code to support “Zen 3”-based processors in select beta BIOSes for AMD B450 and X470 motherboards.
  2. These optional BIOS updates will disable support for many existing AMD Ryzen™ Desktop Processor models to make the necessary ROM space available.
  3. The select beta BIOSes will enable a one-way upgrade path for AMD Ryzen Processors with “Zen 3,” coming later this year. Flashing back to an older BIOS version will not be supported.
  4. To reduce the potential for confusion, our intent is to offer BIOS download only to verified customers of 400 Series motherboards who have purchased a new desktop processor with “Zen 3” inside. This will help us ensure that customers have a bootable processor on-hand after the BIOS flash, minimizing the risk a user could get caught in a no-boot situation.
  5. Timing and availability of the BIOS updates will vary and may not immediately coincide with the availability of the first “Zen 3”-based processors.
  6. This is the final pathway AMD can enable for 400 Series motherboards to add new CPU support. CPU releases beyond “Zen 3” will require a newer motherboard.
  7. AMD continues to recommend that customers choose an AMD 500 Series motherboard for the best performance and features with our new CPUs.

There are still many details to iron out, but we’ve already started the necessary planning. As we get closer to the launch of this upgrade path, you should expect another blog just like this to provide the remaining details and a walkthrough of the specific process.

At CES 2017, AMD made a commitment: we would support AMD Socket AM4 until 2020. We’ve spent the next three years working very hard to fulfill that promise across four architectures, plus pioneering use of new technologies like chiplets and PCIe® Gen 4. Thanks to your feedback, we are now set to bring “Zen 3” to the AMD 400 Series chipsets. We’re grateful for your passion and support of AMD’s products and technologies.

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  • rarson - Tuesday, May 19, 2020 - link

    "Because you use them in pairs, and you can upgrade one without upgrading the other."

    I can also use one without using the other, and I don't ever buy "upgraded" appliances just to wash or dry clothes faster.

    "They do if you need a new feature of the new CPU, if you need faster memory to gain a lot of the benefits of the new CPU, if you need a faster interconnect, if you need more ports with the new CPU, etc."

    All of those things preclude using a newer chip in an older motherboard anyway, with the exception of a feature like PCIe 4.0. That is, if a new CPU has a DDR5 controller on it, physical DDR4 slots obviously aren't going to work. So you're not "gimping" the CPU because the CPU doesn't work at all.

    In this case, the ONLY "gimping" you're getting is PCIe 4 which is essentially useless at this point, especially since PCIe 3 isn't any sort of bottleneck, especially for the CPU. Regarding the article you linked to, did you even read the title, or any of the rest of it for that matter? The differences are clearly chalked up to VRMs, power consumption, and firmware. Or did you not realize that a CPU can be slightly faster when it is allowed to consume more power?

    My main problem with X570 is the heat of the chipset. The damn thing runs so hot that it needs a fan on it. I run far, far away from those tiny little fans because they suck in dust and seize up with the slightest amount of build-up. I don't want my motherboard dying because the tiny-ass chipset fan stopped working. For that reason alone, I'm more than happy to forego PCIe 4 for a board that doesn't require a chipset fan.
  • rarson - Tuesday, May 19, 2020 - link

    Changing a motherboard is a lot more of a pain in the ass than changing a CPU. Same goes for shipping it.

    I would never go to the trouble of selling a board when I can just continue using the one I already have and just upgrade the CPU.
  • Spunjji - Wednesday, May 20, 2020 - link

    Changing board requires a Windows reactivation or reinstallation, while changing CPU doesn't. It's also a lot less work to remove a CPU cooler and swap a chip than it is to remove nearly everything from your case to get the motherboard out, and you stand a lot less chance of accidentally killing a major component with ESD or an errant screwdriver.

    This is before you get anywhere near the e-waste implications.
  • deksman2 - Tuesday, May 19, 2020 - link

    On a desktop (or even a laptop - especially a laptop), I would imagine plenty... especially with people who are looking to save on upgrade costs and minimize the upgrade to just 1 or two components.

    Some might not even be aware of the possibility they could save a lot of money on just updating the motherboard BIOS which would give them the option to upgrade to a far better CPU which would improve system performance.

    Swapping out the motherboard on a desktop adds extra time and cost for the users.
    In a laptop, its impossible to swap out the motherboard because laptops use custom-made mobo's for specific chassis (but then again, most OEM don't even update mobo BIOS-es on laptops which makes matters worse... although in the past they used to - which made it possible for a person to swap out a Core2Duo for say Core2Quad - if the cooling had the capacity to handle the newer CPU).
  • schujj07 - Tuesday, May 19, 2020 - link

    Most laptop CPUs are BGA so you cannot change the CPU anyways.
  • rarson - Tuesday, May 19, 2020 - link

    "Most laptop CPUs are BGA so you cannot change the CPU anyways."

    You can, but it's a LOT more difficult.

    I don't think I've seen a socketed laptop motherboard since Sandy Bridge. I've looked a lot, but that's about when most manufacturers started transitioning all of their laptops to thinner designs and BGA chips.

    "most OEM don't even update mobo BIOS-es on laptops which makes matters worse"

    This isn't true, as HP laptops will often update the BIOS on their own, without warning. Windows can also update the UEFI through Windows Updates. But they don't do BIOS updates for support, they do them for bug fixes, as the support is already "baked in" by the hardware choices of the OEMs and doesn't change.
  • kepstin - Tuesday, May 19, 2020 - link

    I personally went from an R7 1700 to an R7 3700X on my MSI B350 Tomahawk board. This means that I had to use one of these "permanently beta" bios versions that drops older CPU support (I think A-series chips?) and it removed some of the fancy GUI bios config features like graphical fan curves.
    Worth it to me personally, since the perf jump from zen 1 to 2 was decent, along with the better memory support. resulting system is a bit more stable.
  • Orange_Swan - Tuesday, May 19, 2020 - link

    When I upgrade my CPU I always get a new motherboard. To be fair I do upgrade every 4 years.
  • ET - Tuesday, May 19, 2020 - link

    Quite a few do. There are people running Ryzen 3000 CPUs on X370, for example. The upgrade path from Ryzen 1000 or 2000 to 3000 is pretty compelling - much better IPC and more cores without having to buy a new MB, that's quite convenient.

    (If Intel had allowed newer CPUs to be installed on the B250 -- which was technically possible -- I'd have made such an upgrade.)
  • AntonErtl - Tuesday, May 19, 2020 - link

    I have in the past upgraded from K6-2 300 to K6-2 500 and from Athlon 800 to Athlon 1200; someone interested in more cores may easily want to upgrade from a 2700X to a 4950X or so.

    Another use case is replacement after failure: when my LGA 775 board died, I needed another LGA 775 board (and despite Intel, one could still get such things). When my Core i7-6700K (tray) died, I bought a Core i5-6600K to fit in the board; if that happened today, I would curse Intel for not supporting the 9600K on the same board.

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