The Intel W680 Chipset Overview: Alder Lake Workstations Get ECC Memory and Overclocking Support
by Gavin Bonshor on March 9, 2022 4:00 PM ESTEarlier this month Intel quietly launched its W680 chipset, the company's workstation-focused chipset for its 12th Gen Core (Alder Lake) processors. Unlike the current generation of consumer desktop chipsets such as Z690, H670, B660, and H610, the W680 adds the capability to use ECC DRAM, including both DDR5 and DDR4 variants. At present, there haven't been many W680 motherboard announcements, although a couple of vendors, including ASRock Industrial and Supermicro have a few options listed. So we're giving you the lowdown on W680, what it has to offer, and what technologies it brings for users looking to build a workstation-class desktop with Intel's latest Alder Lake architecture.
The Intel W680 Chipset: Enabling Alder Lake Workstations
Typically when Intel launches a new series of processors for the desktop market, it releases multiple chipsets with varying levels of features. For its 12th Gen Core family, Intel initially launched its CPUs and premium Z690 chipset, and followed that up with its more affordable H660, B660, and H610 chipsets. In most generations the product stack is rounded out a bit later with a W-series workstation-focused chipset, and finally a variety of Xeon-E series.
Enter the Intel W680 chipset, which is Intel's designated workstation chipset for its 12th Gen Core platform. The Intel W680 chipset is interesting for a variety of reasons, not the least of which is that that it formally opens up ECC memory support for Intel's Alder Lake-S desktop processors.
Intel W680 Chipset Block Diagram
Some of the main features of the W680 chipset include a PCIe 4.0 x8 DMI link, which connects the processor to the chipset for improved bandwidth over Intel's previous W-series chipsets. Other features include support for up to eight SATA ports and integrated Wi-Fi 6E PHY/2.5 GbE MACs for vendors to hook in the latest networking controllers. Intel includes support for 16x PCIe 5.0 lanes from the CPU, with the usual 16/0 or 8/8 bifurcation options.
Intel W680, Z690, W580, and W480 Chipset Comparison | ||||
Feature | W680 | Z690 | W580 | W480 |
Socket | LGA1700 | LGA1700 | LGA1200 | LGA1200 |
uArch | Alder Lake | Alder Lake | Rocket Lake | Comet Lake |
PCIe Lanes (CPU) | 16 x 5.0 4 x 4.0 |
16 x 5.0 4 x 4.0 |
20 x 4.0 | 16 x 3.0 |
PCIe Lanes (Chipset) | 12 x 4.0 16 x 3.0 |
12 x 4.0 16 x 3.0 |
24 x 3.0 | 24 x 3.0 |
PCIe Specification (CPU) | 5.0/4.0 | 5.0/4.0 | 3.0 | 3.0 |
Memory Support | DDR5-4800B DDR4-3200 |
DDR5-4800B DDR4-3200 |
DDR4-2933 | DDR4-2933 |
ECC Memory | Y | N | Y | Y |
DMI Lanes | x8 4.0 | x8 4.0 | N/A | N/A |
Max USB 3.2 (Gen2/Gen1) | 10/10 | 10/10 | 6/10 | 6/10 |
USB 3.2 Gen 2x2 (20 Gbps) | Y | Y | ASMedia | ASMedia |
Total USB | 14 | 14 | 14 | 14 |
Max SATA Ports | 8 | 8 | 8 | 8 |
Memory Channels (Dual) | 2/2 | 2/2 | 2/2 | 2/2 |
Intel Optane Memory Support | Y | Y | Y | Y |
Intel Rapid Storage Tech (RST) | Y | Y | Y | Y |
Integrated Wi-Fi MAC | Wi-Fi 6E | Wi-Fi 6E | Wi-Fi 6 | Wi-Fi 6 |
Intel Smart Sound | Y | Y | Y | Y |
Overclocking Support | Y | Y | N | N |
Intel vPro | Y | N | Y | Y |
ME Firmware | 16 | 16 | 15 | 14 |
TDP (W) | 6 | 6 | 6 | 6 |
Other features with W680 include native support for USB 3.2 Gen2x2 (20 Gbps) Type-C connectivity. However, most of the cost and implementation of networking and connectivity still rely on vendors using solutions through proprietary CNVi connections. This is much the same story on regular Z690, H670, B660, and H610 options, the cost for the target market is a massive factor here on what vendors decide to include or omit. The point is the capability is there should a vendor wish to utilize it.
Intel W680: Now with Official Overclocking Support for CPU & Memory
On the whole, there isn't much difference between the W680 and Z690 chipsets when comparing technical specifications. This includes package size (both are 28 x 25 mm), USB, PCIe, and storage support, but interestingly there's a new addition to Intel's latest desktop workstation chipset. This 'new' inclusion is official support for overclocking, which is something both of the previous W-series chipsets – W580 and W480 – omitted.
While the last couple of W-series chipsets allowed users to overclock the memory on supported processors, Intel has opened this up to unlocking the core frequency when combined with its K-series processors on W680. And while this functionality is appreciated, it's admittedly unlikely users will want to significantly overclock an already hot running and high-powered Alder Lake processor, especially on a motherboard that doesn't have a robust power delivery system like Z690 motherboards do.
The point to this is Intel is giving users a choice, and while it sounds nonsensical in practice, it's a pretty big move for conservative Intel. It should be noted that its H610 chipset doesn't support CPU overclocking; it's an interesting shift from Intel's previous standpoint when it comes to overclocking.
W680 Motherboards: What's Currently Announced (As of March 9th)
Despite Intel opting for a slow ramp up for its W680 chipset, a few motherboard options are officially listed, including from ASRock Industrial and Supermicro. As time goes by, and perhaps when Intel pulls the trigger on its obligatory Xeon E-3300 family of processors, motherboard vendors might opt to officially announce more models.
The key element with W680 is that while they offer support for existing Alder Lake-S processors, they are designed around its Xeon series, which aren't usually overclockable. These models generally feature lower core frequencies and TDPs, given their greater focus on reliability versus performance.
ASRock Industrial W680
As it stands, ASRock Industrial has four W680 motherboards listed at the time of writing. This includes one thin-ITX model (IMB-X1233-WV), one mini-ITX model (IMB-X1231), one micro-ATX model (IMB-X1314) and one full-sized ATX model (IMB-X1712).
The ASRock Industrial IMB-X1712 ATX (W680) motherboard.
All of ASRock Industrial's W680 options include support for ECC DDR4-3200 memory and offer varying levels of PCIe 4.0 and storage support. The PCIe 4.0 support depends on the form factor as the ITX sized offerings are limited to just one full-length PCIe 4.0 slot, while the IMB-X1314 and IMB-X1712 have two full-length PCIe 4.0 slots available. For the ITX sized models, both benefit from dual 2.5 GbE, while the larger models have three 2.5 GbE controllers, all of which use Intel I225-LM controllers to power each Ethernet port across all models. It's worth noting that the IMB-X1712 includes two PCI slots for legacy devices.
The ASRock Industrial IMB-X1231 mini-ITX (W680) motherboard.
Both the IMB-X1233-WV and IMB-X1231 ITX sized offerings allow support for Alder Lake-S processors with a maximum TDP of 65 W, while the micro-ATX IMB-X1314 and ATX IMB-X1712 enable users to use processors with a base TDP of up to 125 W. Support and compatibility here are aligned and determined by the base frequency TDP rating on these models.
At the time of writing, ASRock Industrial hasn't announced any availability or pricing for any of its W680 models.
Supermicro W680
For Intel's W680 chipset launch, Supermicro has listed two motherboards designed around the new chipset. This includes the X13SAE and the X13SAE-F motherboards. These models are ATX in size and include support for DDR5-4400 memory, both ECC and non-ECC DRAM types.
The Supermicro X13SAE ATX (W680) motherboard.
Despite both the Supermicro X13SAE and X13SAE-F featuring the same base specifications, including dual Ethernet, one powered by an Intel I225-V 2.5 GbE and the other by an Intel I1219-LM Gigabit controller pairing, there is one key difference. The Supermicro X13SAE-F includes IPMI functionality which is powered by an ASPeed AST2600 BMC controller and includes a supplementary Realtek RTL8211F management LAN port.
Both of the Supermicro X13 (W680) allow users to use Alder Lake-S processors with a base TDP of 125 W, and both are using a Realtek ALC888S HD audio codec. They share the same connectivity options, including HDMI 2.1, DisplayPort 1.4, and DVI video outputs, as well as three USB 3.2 G2 Type-A and one USB 3.2 G1 Type-A port on the rear panel.
At the time of writing, Supermicro hasn't shared any information regarding the availability or pricing on its X13 (W680) motherboards.
For other LGA1700 options such as Z690 motherboards, below we have a list of our detailed Intel Alder Lake coverage:
- The Intel 12th Gen Core i9-12900K Review: Hybrid Performance Brings Hybrid Complexity
- The Intel Core i3-12300 Review: Quad-Core Alder Lake Shines
- Intel Architecture Day 2021: Alder Lake, Golden Cove, and Gracemont Detailed
- Intel Announces 12th Gen Core Alder Lake: 22 New Desktop-S CPUs, 8 New Laptop-H CPUs
- The Intel Z690 Motherboard Overview (DDR5): Over 50+ New Models
- The Intel Z690 Motherboard Overview (DDR4): Over 30+ New Models
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hubick - Thursday, March 10, 2022 - link
Ahh, I see. Obviously I haven't been following that close since I got my Threadripper. Those use the C621A chipset (woulda been nice for the article to have that in the table). I guess it's good this W680 is finally bringing those features to their lower price points, but I can't help but think the lineup is overly complex and they coulda just made the W-3300's their enthusiast/workstation platform (and affordable like Threadripper).mode_13h - Thursday, March 10, 2022 - link
I think the reason they skipped that generation of HEDT is that Ice Lake didn't clock high enough and it woud've been launching on the eve of Alder Lake, making it look even worse.I wonder if we'll see the return of HEDT, after Sapphire Rapids launches.
HideOut - Wednesday, March 9, 2022 - link
I thought ECC was a STANDARD of DDR5?Ryan Smith - Wednesday, March 9, 2022 - link
DDR5 has some on-die error recovery features to counterbalance an expected reduction in chip quality. It has error recovery features in the same way that your SSD does.However full ECC, which covers transmission and full-chip errors, still requires specific ECC DIMMs.
mode_13h - Thursday, March 10, 2022 - link
> on-die error recovery features to counterbalance an expected reduction in chip quality.Yup. So, the net-effect should probably be a similar error rate as non-ECC DDR4.
I'd love to see some stats on that, though. I'll bet Amazon is monitoring memory error rates and could tell us how early DDR5 is measuring up to prior DDR generations.
Doug_S - Thursday, March 10, 2022 - link
Unfortunately the on-die ECC does not appear to allow for any communication with the host regarding ECC errors. For that you have to get real ECC. I suppose you could infer something about the on-die correction by comparing DDR4 ECC DIMMs vs DDR5 ECC DIMMs though.mode_13h - Thursday, March 10, 2022 - link
Yes, that's exactly what I was thinking - you'd use ECC DIMMs to tell you how often 1-bit and 2-bit errors made it past the on-die ECC of DDR5 and compare this with how often DDR4 had 1-bit and 2-bit errors.TeXWiller - Thursday, March 10, 2022 - link
It looks like Chrome systems will get support for doing in-band ECC.mode_13h - Thursday, March 10, 2022 - link
That's great news, if true!The reason I'm skeptical is that Chromebooks tend to use Jasper Lake, whereas in-band ECC support has so far been limited to its industrial-focused cousin: Elkhart Lake. However, if anyone has the clout to make Intel enable a feature like that in a consumer CPU, it's definitely Google.
Makaveli - Thursday, March 10, 2022 - link
how are you posting on this site and haven't seen this.https://www.youtube.com/watch?v=XGwcPzBJCh0