Anyone looking at a high-end Intel system has three choices: Core i9, Xeon W, or the larger socket Xeon Scalable. Those first two both use the LGA2066 socket, and have identical core/frequency configurations, but are in effect different platforms with locked motherboards for each. The benefits of the Xeon W and Xeon Scalable lie in the ability for ECC memory, vPro management features, and with some processors there are different cache variants. 

In a previous generation, Intel had workstation counterparts in line with its high-end desktop line. Both of the products used the same socket, which made it easier for consumers, and the same single socket motherboard that held a Core i7 could also run a range of Xeons: the big E7 series, the dual-socket focused E5-2600 series, and the workstation-focused E5-1600 series. The benefits of these workstation chips were primarily for ECC memory, management features, and OEM support. 

Cycle forward to today, and due to socket bifurcation, none of the server focused processors will fit into a modern HEDT platform. To that extent Intel created the Xeon W family, borne from the E5-1600 line, which matches up with the consumer line but with the usual ECC/OEM add-ons. Intel also cut consumer chipset support, pushing Xeon W out of consumer hands and purely into the OEM/system market due to the lack of server chipset based motherboards at retail. Despite the doom and gloom, Supermicro recently sampled us their server chipset X11SRA and a handful of Xeon W processors for review. 

The Xeon W Line-Up

Announced back in January 2018, the Xeon W launch was somewhat unexpected: we had reason to believe that Intel would introduce components for the consumer high-end desktop socket with ECC, however what form that would take was unknown, especially with processors up to 18 cores being released on the consumer side. Intel would ultimately have to draw parity with the Xeon W line, potentially causing a shift in its single socket market on the server side as well.

In the end, Intel released eight new Xeon W processors for the market, along with two off-roadmap processors for particular OEMs, and a single version for Apple. The configurations are essentially identical to the consumer HEDT line, using the Enterprise-focused Skylake-SP cores with new AVX512 instructions, a new mesh interconnect, and a rearranged cache structure focusing on L2 data. We have covered the changes compared to the standard Skylake-S core in detail in our initial Skylake-X and Skylake-SP reviews.

What Intel has done with the Xeon W processors compared to the consumer HEDT line is focus more on the lower core count models: in the full line-up there are four quad-core models, some with hyperthreading, but there are also two six-core parts, a single eight-core part, and a ten-core parts. One could interpret this SKU differentiation as Intel not focusing as much on the high-end with the Xeon W line – where the consumer line as products at 18/16/14/12/10 cores, the Xeon W only has 18/14/10/10/8 as the top five models.

Intel Xeon-W Processors (LGA2066)
  Cores Base
Freq.
Turbo
2.0
L3
(MB)
L3/core
(MB)
DDR4
ECC
TDP Price
Xeon W-2195 18/36 2.3 GHz 4.3 GHz 24.75 1.375 2666 140 W $2553
Xeon W-2175 14/28 2.5 GHz 4.3 GHz 19.25 1.375 2666 140 W $1947
Xeon W-2155 10/20 3.3 GHz 4.5 GHz 13.75 1.375 2666 140 W $1440
Xeon W-2145 8/16 3.7 GHz 4.5 GHz 11.00 1.375 2666 140 W $1113
Xeon W-2135 6/12 3.7 GHz 4.5 GHz 8.25 1.375 2666 140 W $835
Xeon W-2133 6/12 3.6 GHz 3.9 GHz 8.25 1.375 2666 140 W $617
Xeon W-2125 4/8 4.0 GHz 4.5 GHz 8.25 2.063 2666 120 W $444
Xeon W-2123 4/8 3.6 GHz 3.9 GHz 8.25 2.063 2666 120 W $294
Xeon W-2104* 4/4 3.2 GHz - 8.25 2.063 2400 120 W $255
Xeon W-2102* 4/4 2.9 GHz - 8.25 2.063 2400 120 W $202
*Off Roadmap
Apple Only SKUs
Xeon W-2191B 18/36 2.3 GHz 4.3 GHz 24.75 1.375 2666 ? -
Xeon W-2170B 14/28 2.5 GHz 4.3 GHz 19.25 1.375 2666 ? -
Xeon W-2150B 10/20 3.0 GHz 4.5 GHz 13.75 1.375 2666 ? -
Xeon W-2140B 8/16 3.2 GHz 4.2 GHz 11.00 1.375 2666 ? -

One of the other changes is in the AVX512 compatibility. With the Xeon Scalable processors, each core has the equivalent of two AVX512 FMA ports on each core to maximize bandwidth, except the off-roadmap SKUs that have one. The consumer product line also has two, although Intel initially said certain parts only had one. These Xeon W parts will also have two AVX512 FMA ports each, allowing hand-tuned code to use AVX512 to its fullest. Xeon W also has ECC memory, which is usually one of the main reasons to buy the processors.

Each of the CPUs can support up to 512GB of DDR4-2400 ECC RDIMMs in a quad channel configuration, which means that each module can be 64GB apiece. This is up from the 128 GB UDIMM support on the consumer space, but lower than the 768GB RDIMM support for Xeon Scalable (caused by having six memory channels).

A small note about the ‘different’ processors in the stack. The W-2102 and W-2104 are the low-end quad-core processors without hyperthreading or Turbo, but these are classified as ‘off roadmap’. These processors are not for sale to all OEMs, like the others, and typically are built for specific OEMs that have contracts with specific customers in mind. As a result, pricing lists will not show these parts, and to be honest, Intel does not really like talking about them as promoting them has no inherent value. Of course from our perspective, we like examining every member of the stack, regardless of how widely available it is.

The other set of different processors are the Apple-only parts. These are only found in the Late 2017 model of the updated iMac Pro. Take for example the Xeon W-2150B - this 10-core processor is almost identical to the 10-core Xeon W-2155, but has a lower base frequency of 3.0 GHz (compared to 3.5 GHz). The lower base frequency will greatly reduce the TDP of the processor, however these processors rarely run at base frequency and almost always in a turbo state, where TDP is undefined, making it difficult to place this processor. It is most likely a part that is binned well for voltage, frequency, and power. Again, this is another part that isn’t available to everyone (but if someone has one, we’d love to test it).

All these processors will require a motherboard that uses the C422 chipset. These chipsets are almost identical to the X299 chipsets used in the consumer platform, but are firmware locked to Xeon W processors only with support for ECC. Because of the split between the consumer and workstation platforms, there are very few C422motherboards in the open market for custom builders – most OEMs (Dell, Supermicro) build their own internal motherboards for pre-built systems specifically for their own customers, and optimized for their intended outcome (performance, price, etc.).

Per Core Turbo Data

Intel's per-core turbo data for these workstation parts are split up into three sections, due to the instruction sets they have. On the 'hardest' instructions, Intel uses special turbo values for AVX-512, as due to the way these instructions are processed, more heat is generated on chip. The chip has to balance frequency and power draw, so the AVX-512 data comes in at a lower frequency in order to keep the turbo in check.

The first thing to notice with this data is that for most CPUs, when the whole CPU is using AVX-512 instructions, the frequency will drop below the base frequency. For chips like the Xeon W-2123 and W-2133, even single core loading of AVX-512 will drop the frequency below the base frequency. Intel's base frequency does two things: first, it tells you the frequency at which TDP is applicable, and second it is the guaranteed minimum frequency for regular non-AVX instructions.

Behind AVX-512 is AVX2, which is still somewhat of a strain on the processor beyond regular instructions, but not as much. Where AVX-512 requires dedicated die area for support of the vector units, AVX2 is built into the back-end of the standard core design.

 

For AVX2, the W-2133 and W-2123 still end up below the base frequency of the processor. But for the big ones, like the W-2195, the full 18-core loading of AVX2 is 500 MHz faster than AVX-512. This is just an indication that users that are fine-tuning code should think about how much of the AVX-512 unit they can keep fed - the AVX-512 unit despite the 500 MHz difference is expected to be faster no doubt, but a half-fed AVX-512 might get trumped by a full AVX2.

For the regular instructions, turbo goes a bit like this:

For a number of users, the key metrics here are the all-core turbos, with the 18-core part having an all-core turbo of 3.2 GHz. Interestingly the W-2155 and W-2145 sits well here: for any code that can't reliably go beyond 12-14 threads, having the higher frequency but lower core count part might actually perform better. We saw a bit of this in our review, with the variable threaded loads executing somewhat better on the W-2155 than the W-2195.

Then and Now: Defining a Workstation

By splitting the motherboard support for workstation grade processors, Intel has (whether on purpose or not) redefined what it means to have an Intel workstation. In previous generations, a certain market of users would happily invest into an E5-2640 style processor and place it into a single socket consumer motherboard, taking advantage of a potentially better-binned processor, and on some motherboards that qualified it, ECC memory. Depending on the location and time, in some instances this method was cheaper than going for the similar grade consumer processor. Due to the motherboard support, these systems were certainly more widespread compared to today. In fact, some users are currently looking to eBay and investing in older 8-core and 10-core processors because they are extremely affordable.

In 2018, for the Intel workstation enthusiast, the situation is complicated and confusing.

If a workstation user looked at consumer-grade hardware, they can get the cores and the motherboard, but lose the ECC memory and co-processor compatibility consummate with a professional system: some motherboard hardware may not be qualified with Quadro, Tesla, FirePro, Xilinx, Altera, etc., because those motherboards aren’t built for that market.

If a workstation user looked at professional-grade hardware, it becomes a case of struggling to self-build based on availability or paying through the nose for an OEM system that might have some horrendous markup. We spoke to one OEM in years past, who said that the prices on the website were almost fictitious – most of their sales in this area come from large-scale corporate contracts which offer discounts based on volume. The single home-brew workstation user was not their target market, unless they wanted to pay the high prices.

Similar SKU Comparison
Features Skylake-X
(i9-7980XE)
Xeon-W
(Xeon W-2195)
Skylake-SP
(Xeon 6140/M)
Platform X299 C422 C620
Socket LGA2066 LGA2066 LGA3647
Cores/Threads 18 / 36 18 / 36 18 / 36
Top Base/Turbo 2.6 / 4.2 2.3 / 4.3 2.3 / 3.7
GPU PCIe 3.0 44 48 48
DRAM / DDR4 128GB
UDIMM
Quad-Channel
512GB
RDIMM+LRDIMM
Quad Channel
768GB / 1536GB
RDIMM+LRDIMM
Six Channel
512-bit FMAs 2 2 2
Max Sockets 1 1 4
TDP 165W 140W 140W
 Price $1999 $2553 $2451 / $5448

Ultimately if a user is going above and beyond for an OEM system, it might be worth looking into Xeon Scalable processors, especially if multiple sockets in a single system are required. This increases the expense significantly, however. The benefits on building a consumer-based workstation, if memory is not needed, also come down to clock speed and AVX-512 support.

The alternative is to look at AMD’s workstation offering, Threadripper, which is cheaper, offers similar core counts, more ECC memory per processor (depending on motherboard support), and more PCIe lanes, but does not have AVX-512 and can suffer from a non-unified memory architecture for software that requires a lot of core-to-core and core-to-memory communication. The multi-socket option here is EPYC, which gets more cores and more system memory, but not increase in PCIe lanes due to the way the platform shares resources.

Intel vs AMD Comparison
Features Xeon-W
Xeon W-2145
AMD Ryzen
TR 1900X
AMD EPYC
7401P
Platform C422 X399 -
Socket LGA2066 TR4 SP3r2
Cores/Threads 8 / 16 8 / 16 24 / 48
Base/Turbo 3.7 / 4.5 3.8 / 4.0 2.0 / 3.0
GPU PCIe 3.0 48 60 124
DRAM / DDR4 512GB
RDIMM+LRDIMM
Four Channel
128GB
UDIMM
Four Channel
2 TB
RDIMM+LRDIMM
Eight Channel
AVX-512 2 FMA - -
L3 Cache 11 MB 32 MB 64 MB
TDP 140W 180W 170W
 Price $1113 $549 $1075

A lot of purchasing decisions will be skewed specifically for the workflow in mind, which is one of the reasons why we have so many benchmarks in play for our reviews – there is no ‘one benchmark fits all’ scenario, and we are now in a situation where there are multiple options to choose from depending on the size of the wallet.  

This Review

For our analysis today, we were able to secure five of the Xeon W processors: the top-end 18-core W-2195, the mid-range ten core W-2155, the more budget quad-core W-2153, and the two off-roadmap processors in the W-2104 and W-2102.



We have put these processors through our current generation testing suite, with the Spectre and Meltdown patches applied. The main targets for comparison are Intel’s Skylake-X high-end desktop platform, Intel’s Skylake-S consumer platform, and AMD’s Ryzen and Threadripper platforms.

The motherboard used in our review is the Supermicro X11SRA, one of the more 'available' Xeon W motherboards on the market.

You can read our review of the motherboard here.

We must also say thank you to Kingston for sampling us some DDR4-2666 C19 RDIMM Memory for this review.

Xeon W processors support RDIMM ECC memory, and our motherboard here would not accept UDIMMs, and Kingston kindly supplied the memory needed. The (KSM26RS8/8HAI) modules were faultless in our testing.

Pages In This Review

  1. Overview of Xeon W
  2. Test Setup and Power Consumption
  3. CPU Benchmarking: Office Tests
  4. CPU Benchmarking: System Tests
  5. CPU Benchmarking: Rendering Tests
  6. CPU Benchmarking: Encoding Tests
  7. CPU Benchmarking: Web Tests
  8. CPU Benchmarking: Legacy Tests
  9. Spectre vs Meltdown: SYSMark
  10. Conclusions: Is Intel Serious About Xeon W?
Test Setup and Power Consumption
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  • 0ldman79 - Tuesday, July 31, 2018 - link

    He was an Intel fanboy undercover as an AMD shill who's in Intel's pocket.

    He's a triple agent.

    The only way to keep is cover is to not show bias, be objective and report the facts as they stand, otherwise his employers will figure out he's turned (and turned and turned) and they'll cut him loose.

    True story.
  • BambiBoom - Monday, July 30, 2018 - link

    Anandateers,

    As a Xeon / workstation user for many years, this is an interesting review, but seems eccentric to typical workstation buyers' tendencies.

    There are three kinds of Xeon users based on the emphasis in applications: one, single thread performance such as 3D modeling, animation, and simulation, two, multi-threaded which includes CPU rendering, some well-threaded simulation, some aspects of video and photo-editing, and database, computational application, and three, a very common one in which the workstation has to be reasonably good at both single-threaded and multi-threaded. Solidworks is very useful to evaluate workstations as it's well-written and also demanding of both very high single and multi-thread performance. If you look at worsktation listings, the modeling units are i7-8800K A lot of Solidworks modelers are running i7-8800K systems- with the required Quadro. ECC is not as universal as it was five years ago. But, if the system is also used for the very well-threaded Solidworks rendering, they will use 10 or 12-core i7 or i9 that have high Turbo clock speeds.

    My solution to reasonable performance in both single and multi-threaded work is a Xeon E5-1680 v2 which I run at 4.3GHz on all 8 cores. Yes, you can overclock E5-1680 v2, E5-1660 v2, and E5-1650 v2. A friend of mine using Solidworks and Maya runs an E5-1680 v2 at 4.7GHz using a large custom-designed external cooling tower. Because a fast 8-core is the sweet spot in single and multi- thread balance, I'm sorry the review did not include tests of the Xeon W2145 (8C@3.7/4.5), also the W2135 (6C@3.7/4.5), and especially, the i7-7820X (8C@3.6/4.3) overclockable- there are a lot of 4.6-4.8GHz on Passmark and it's under $600 as compared to $1100 for the W-2145. The i7-7820X could be the perfect workstation CPU except for the limited PCIe lanes. The W-2145 has an excellent average single threaded mark of 2537 on Passmark, but that has a locked multiplier. The i7-7820X however at 4.8GHz has a calculated single thread up to 3100 and the top performer on Passmark at about 3185. This is even more interesting in comparison to the recent AMD Ryzen 2700X which has greatly improved Ryzen single thread performance. However, the highest CPU rating in Passmark calculates to about 2600- still really excellent: the average i7-7700K is 2583. The 2700X is tempting from a cost/performance standpoint, but those needing the highest possible single-threaded performance will stay with Intel.

    Overall I'm very glad to see a review of Xeon W's, but in my view, the inclusion of the low end OEM 4-core models, the inclusion of the limited issue i7-8086K and the obsolete i7-7700k instead of the i7-8800K, plus the exclusion of the 8-core Xeon W-2145 and it's i7 counterpart i7-7820X makes it less useful to the typical workstation buyer. Some comparative tasks within workstation applications would be more informative too than synthetic benchmarks.

    BambiBoom

    P.S. In my view, Intel is making a huge mistake with the upcoming i9-9700K. It's 8-core and has high clock speeds- 3.6/4.9GHz and will be overclockable, but minus hyperthreading is going to send many, many workstation buyers to whatever the Ryzen 2800X turns out to be. The lack of hyperthreading will make it a gaming-only CPU and what games will make much if any use of all 8 cores?
  • mode_13h - Monday, July 30, 2018 - link

    You mean i7-8700K, but yeah.

    A good workstation has more cores (and PCIe lanes) than desktop, but still good single-thread perf. It's mostly servers where you really care about aggregate performance more than single-thread.
  • Ian Cutress - Monday, July 30, 2018 - link

    >Overall I'm very glad to see a review of Xeon W's, but in my view, the inclusion of the low end OEM 4-core models, the inclusion of the limited issue i7-8086K and the obsolete i7-7700k instead of the i7-8800K, plus the exclusion of the 8-core Xeon W-2145 and it's i7 counterpart i7-7820X makes it less useful to the typical workstation buyer. Some comparative tasks within workstation applications would be more informative too than synthetic benchmarks.

    1) Unfortunately these were the only 5 SKUs we were able to get ahold of. Please pester Intel if you want to see more reviewed.
    2) We have many other CPUs tested in our database, www.anandtech.com/Bench
    3) We can't test every overclockable CPU at every frequency. Overclocking is in itself a niche (as much as people talk about it online, and we only pull out OC data unless it's universal: Running our suite CPU X at Frequencies YXZ just multiplies our testing time.
    4) Benchmarks: I've repeatedly asked in reviews over the years for users to get in contact with their preferred professional benchmarks. Some ideas were good (Agisoft, DigiCortex), some were not (licensable software doesn't scale over 5 systems testing simultaneously). But please keep emailing suggestions.

    Please bear in mind, not 100% of benchmarks have to be specifically for you. I get so many complaints about 'why include benchmark X?' because it doesn't pertain to that user. There are other users who prefer other benchmarks. Even if 50% or 20% of the benchmarks are relevant to you, that's the take-home data for you, not the others. The others are for other people. Don't expect 100% of all the data points to be relevant for you.
  • diehardmacfan - Tuesday, July 31, 2018 - link

    Have you looked into using SPECviewperf 13 for testing? It's probably the best all-in-one suite for workstation performance.
  • BambiBoom - Tuesday, July 31, 2018 - link

    Ian Cutress,

    I don't expect any review to have any particular content specific to me and don't understand your creating that inference.

    My point was that the review was less relevant to buyers considering Xeon W's by omitting an important category of processors, the fast 6-core and moreso the W-2145 8-core. As those processors were unavailable, we'll look forward to seeing something about them perhaps another time.

    It seems that those buying HP, Dell, Lenovo, Boxx, and Puget systems are going to buy quite a few W-2123, W-2125, W-2135, W-2145 plus the i7-and i9 alternatives including i7-8700K and i7-7820X and I would have liked to have seen those reviewed. Those with $2,000 can have good performance in both in 10, 12 and greater core count CPU's, but the 8-core is important in having a good balance at a comfortable cost. Tests have shown- e.g. the Puget Systems articles that demonstrate that multi-threaded applications often (e.g. Adobe) have peak core utiltization at 5-6 cores and so a fast 8- core is a good solution. As the Xeon W-2145 and i7-7820X are both 8-cores @ 3.7/4.5, it seemed that would be a good "center" for a Xeon W- review. I also don't expect a review to try every overclocked CPU, but in the example of comparing the W-2145 and i7-7820X, it seems interesting to note that the i7-7820X may be run at 4.8GHz for $500 less (-45%) than the 4.5GHz W-1245.

    You seem to have stored up a good supply of impatience and anger towards readers making requests or suggestions. Keep in mind we're not as expert, have the range of technical or market knowledge, nor access to so many components as do you. Do you enjoy this work?

    BambiBoom
  • tmediaphotography - Tuesday, July 31, 2018 - link

    "You seem to have stored up a good supply of impatience and anger towards readers making requests or suggestions." You have to empathize with Ian, and the other reviewers. With every article / review they publish here there seems to be a small cadre of users that will criticize everything they write, deride them, belittle them. After a time it gets old, and starts to weigh heavily. All while working under intense pressure from deadlines.

    Constructive criticism is a thing most people should read into. In my job as a photographer / trainer, the basic idea is "Okay, this is what is good about the image, this is what is wrong and here is how to improve upon it in the future." While your comment had much of the workings for a proper CC, I also don't see Ian's anger or impatience. I only see him reiterating a point he's had to make dozens of times.
  • 0ldman79 - Tuesday, July 31, 2018 - link

    Agreed.

    I've seen where Ian was getting irritated, this didn't appear to be one of those moments.
  • BambiBoom - Wednesday, August 1, 2018 - link

    imediaphotography,

    As Anandtech is owned by Purch Group which has a marketing function; "to better reflect its growing portfolio of brands and products focused on purchasing decisions", one would think that mentioning median level products not reviewed but that were, in my view, probably more likely to be purchased by workstation buyers would have had a better reception. Instead of addressing the specifics of the content and intention of my comments, Ian's reply was almost entirely a general rant as to readers' unfair comments and those applied applied to me.

    Reviewers/ critics that take every comment personally seem unhappy in their work. Yes, reviewing is difficult and under pressure of deadlines, but your idea of focusing on constructive criticism is the proper mode of response. In a professional media situation, applying general irritation based on past experience to an individual has no excuse. Ian could have simply said that the processors missing from the review would be reviewed when available and not use most of his comments repeating that I insist every review revolve around me.

    I've been a reviewer / critic, having had a radio program in Los Angeles for six years. During that run I became used to criticism of my choices for review and comments, and once in a while this was vehement. I once had a fellow make semi-obscene comments and implied threats concerning something I said- about Mozart. Still, my perplexity and pique was never applied to any other caller.

    BambiBoom
  • JlHADJOE - Tuesday, July 31, 2018 - link

    To me it looks like forcibly introducing an i9 SKU and it's need for differentiation with an i7 messed up the whole lineup.

    If they had stuck with the traditional lineup, then we could have had 8/16 i7, 6/12 i5, and 4/8 i3 and the entire line would have been much better across the board.

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