Intel Announces Xeon W and Xeon Scalable Workstation Processors

Subject: Processors | August 29, 2017 - 12:00 PM |
Tagged: Xeon W, xeon scalable, xeon, workstation, processor, Intel, cpu

Intel has officially announced their new workstation processor lineup, with Xeon Scalable and Xeon W versions aimed at both professional and mainstream workstation systems.

"Workstations powered by Intel Xeon processors meet the most stringent demands for professionals seeking to increase productivity and rapidly bring data to life. Intel today disclosed that the world-record performance of the Intel Xeon Scalable processors is now available for next-generation expert workstations to enable photorealistic design, modeling, artificial intelligence (AI) analytics, and virtual-reality (VR) content creation."

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The first part of Intel’s product launch announcement are the new Xeon Scalable processors, first announced in July, and these are dual-socket solutions targeting professional workstations. Versions with up to 56 cores/112 threads are available, and frequencies of up to 4.20 GHz are possible via Turbo Boost. Intel is emphasising the large performance impact of upgrading to these new Xeon processors with a comparison to older equipment (a trend in the industry of late), which is relevant when considering the professional market where upgrades are far slower than the enthusiast desktop segment:

“Expert workstations will experience up to a 2.71x boost in performance compared to a 4-year-old system and up to 1.65x higher performance compared to the previous generation.”

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The second part of announcement are new Xeon W processors, which will be part of Intel’s mainstream workstation offering. These are single-socket processors, with up to 18 cores/36 threads and Turbo Boost frequencies up to 4.50 GHz. The performance impact with these new Xeon W CPUs compared to previous generations is not as great as the Xeon Scalable processors above, as Intel offers the same comparison to older hardware with the Xeon W:

“Mainstream workstations will experience up to a 1.87x boost in performance compared to a 4-year-old system4 and up to 1.38x higher performance compared to the previous generation.”

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Full PR is available from Intel's newsroom.

Source: Intel

Intel to Reveal 8th-Generation Core Processor Lineup on August 21

Subject: Processors | August 8, 2017 - 12:04 PM |
Tagged: processor, Intel, cpu, Core, coffee lake, 8th generation core

Intel has announced a live event on August 21 to reveal the new 8th-generation Core processor family. The Facebook Live stream will be available on both Intel's Facebook page or simply by visiting the Intel Newsroom, and it begins at 8:00 PDT (11:00 EDT) on 8/21.

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What exactly is being discussed? Intel provides these bullet points for the event which is to take place just before the upcoming national solar eclipse:

  • Don’t be caught in the dark. Learn how the 8th Gen Intel Core processor family will offer blazing fast performance.
  • Hear directly from Gregory Bryant, senior vice president of the Client Computing Group at Intel, and others about the details on the latest processor family and what it can help you do.
  • Discover how immersive experiences will bring you from spectator to participant with 8th Gen Intel Core processor capabilities.
  • Don’t just take our word for it. See the power of 8th Gen Intel Core technology come to life in the hands of a VR creator and imaging technologist.
  • Get a sneak peek at some of the amazing system designs based on 8th Gen Intel Core processors.
  • Start planning for what new 8th Gen Intel Core processor-based device to purchase in the holiday season and even before.
  • Don’t worry, you won’t miss the solar eclipse. Tune in before it descends upon Oregon and the West Coast and then makes its way across the U.S.
  • See how the 8th Gen Intel Core processor is designed for today and what comes next.

We will cover the event which will provide official details on the rumored Coffee Lake CPU lineup. Stay tuned!

Source: Intel

Intel Fills In the Gaps on Core X-Series Processor Specs

Subject: Processors | August 7, 2017 - 01:34 PM |
Tagged: X-Series, processor, Intel, cpu, Core i9, core i7

Intel launched the first half of its X-Series processor lineup earlier this year, releasing up to the 10-core i9-7900X. But with the upcoming release of AMD's 16-core Threadripper 1950X, the real interest among enthusiasts are the specs of Intel's high core count X-Series parts.

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After previously teasing partial specs for these parts, Intel today finally unveiled the complete details, starting out with the i9-7920X (12 cores/24 threads) with a 2.9GHz base and up to 4.4GHz boost clock and topping out with the i9-7980XE (18 cores/36 threads) with a 2.6GHz base and 4.4GHz max boost clock. Check the table below for the complete specifications:

  i9-7980XE i9-7960X i9-7940X i9-7920X i9-7900X  i7-7820X i7-7800X TR 1950X TR 1920X TR 1900X
Architecture Skylake-X Skylake-X Skylake-X Skylake-X Skylake-X Skylake-X Skylake-X Zen Zen Zen
Process Tech 14nm+ 14nm+ 14nm+ 14nm+ 14nm+ 14nm+ 14nm+ 14nm 14nm 14nm
Cores/Threads 18/36 16/32 14/28 12/24 10/20 8/16 6/12 16/32 12/24 8/16
Base Clock 2.6 GHz 2.8 GHz 3.1 GHz 2.9 GHz 3.3 GHz 3.6 GHz 3.5 GHz 3.4 GHz 3.5 GHz 3.8 GHz
Turbo Boost 2.0 4.2 GHz 4.2 GHz 4.3 GHz 4.3 GHz 4.3 GHz 4.3 GHz 4.0 GHz 4.0 GHz 4.0 GHz 4.0 GHz
Turbo Boost Max 3.0 4.4 GHz 4.4 GHz 4.4 GHz 4.4 GHz 4.5 GHz 4.5 GHz N/A N/A N/A N/A
Cache 24.75MB 22 MB 19.25MB 16.5MB 13.75MB 11MB 8.25MB 40MB 38MB ?
Memory Support DDR4-2666
Quad Channel
DDR4-2666
Quad Channel
DDR4-2666
Quad Channel
DDR4-2666
Quad Channel
DDR4-2666
Quad Channel
DDR4-2666
Quad Channel
DDR4-2666
Quad Channel
DDR4-2666
Quad Channel
DDR4-2666 Quad Channel DDR4-2666 Quad Channel
PCIe Lanes 44 44 44 44 44 28 28 64 64 64
TDP 165 watts 165 watts 165 watts 140 watts 140 watts 140 watts 140 watts 180 watts 180 watts 180 watts?
Socket 2066 2066 2066 2066 2066 2066 2066 TR4 TR4 TR4
Price $1999 $1699 $1399 $1199 $999 $599 $389 $999 $799 $549

From a pure core-count perspective, the Threadripper 1950X goes up against Intel's i9-7960X, but with a $700 difference in price. With Intel CPUs holding and IPC advantage over AMD, however, it's likely that the i9-7920X, and perhaps even the 7900X, will best Threadripper in certain gaming and productivity workloads.

Also interesting in Intel's announcement today are the base clocks of the 12-core i9-7920X (2.9GHz) and the 14-core i9-7940X (3.1GHz). Intel pushed the TDP of the 7940X to 165W, allowing it to increase the base clock over its 12-core counterpart. This suggests that Intel expects the 14-core 7940X, at a price-point of $1399, to be a popular choice in terms of price-to-performance.

Finally, Intel's release today reveals that all of the upcoming X-Series parts will have 44 PCIe lanes, compared to the 64 lanes AMD is offering on all Threadripper parts. There was some debate in the office this morning about how Intel's 44 lanes should cover most configurations for the foreseeable future, but this still remains one clear advantage for AMD's platform.

Intel's 4- to 10-core processors are already on the market. Intel says that the 12-core 7920X will launch August 28th, while the 14- to 18-core parts will launch about a month later, on September 25th.

Source: Intel

Intel Coffee Lake Rumors: More Cores and Z270 Incompatibility

Subject: Processors | August 3, 2017 - 10:06 PM |
Tagged: rumor, report, processor, Intel, cpu, core i7, core i5, core i3, coffee lake

You may have heard that Intel's upcoming 8th-generation processors, code named Coffee Lake, won't be compatible with the current Z270 chipset motherboards. Last week we had another round of rumors and reports about these upcoming - and totally incompatible - new CPUs, with wccftech reporting some details on what to expect with the new processors. Spoiler: MORE CORES.

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Image credit: Tech Advisor

We begin with the Intel Core i7-8700K, which will reportedly be the company's first mainstream 6-core processor, with previous hex-core offerings limited to HEDT and server. The i7-8700K will run slightly below the current 4-core i7-7700K, with a base frequency of 3.7 GHz (vs. 4.2 GHz with the i7-7700K) and single-core Turbo speeds topping out at 4.3 GHz according to the report. Another point of interest with the 6-core i7 part is TDP, with 95W needed where even the current HEDT parts are into the 130W territory. What of the Core i5? This is where things get a little more interesting, as there appear to be 6-core parts in the i5 family as well, without Hyper-Threading of course. Even the Core i3 parts jump to 4-core configurations with Coffee Lake, which would obviously be another first.

INTEL_CHART.png

Chart credit Wccftech.com

To editoralize a bit, AMD seems to be in a highly influential position in the wake of Ryzen and Threadripper, as Intel is (reportedly, of course) upping the core counts for Core series processors. Sure, Intel could have done this anyway, but looking at their pre-Ryzen products they were quite happy selling 2 - 4 core parts for premium prices before. This is great news for anyone in an era of increasingly multi-thread optimized computing (as long as pricing remains at or below current offerings), and with this healthy competition the second half of the year might be the best time in a very long time to upgrade - be it Intel or AMD. Now, if only graphics cards would fall back down to earth...

Source: wccftech

Rumor: Intel May Discontinue Pentium G4560 Processor

Subject: Processors | July 10, 2017 - 11:11 PM |
Tagged: value, rumor, report, processor, pentium, kaby lake, Intel, G4560, cpu, budget

Update 07/11/17: We have now heard from Intel on this subject, and they provided this statement regarding the availability of the Pentium G4560 processor:

"We continue to offer the Intel Pentium SKU referenced. What you have observed on websites are possibly part of a normal demand fluctuation."

(The original post follows.)


Cannibalization of its Core i3 sales might have Intel quietly killing off its best value CPU, if unnamed sources in a DigiWorthy report (via TechPowerUp) can be believed.

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Image credit: ComputerBase via DigiWorthy

Sound far-fetched? It seems at least plausible that Intel might consider some sort of CPU-related moves to maintain profit margins with Ryzen providing some very real competition after several years of Intel dominance. The popularity of the 2-core/4-thread Pentium G4560 - a (theoretically) ~$60 Kaby Lake part that provides a very nearly Core i3-level experience (some features are missing) is not at all surprising, and the current lack of availability and subsequently higher pricing (lowest in-stock price at around $80 at time of publication) suggests that something is up with this CPU.

G4560_History.png

Chart via PCPartPicker

A low of $78.89 for the CPU with an MSRP of $64 is about a $15 markup, but this price is just going to increase if no fresh stock hits the market as these sell out.

Now some editorial: Why would Intel introduce what is essentially a slightly hobbled Core i3 into the market at half the cost of their cheapest Core i3 to begin with? I enthusiastically endorsed this seemingly questionable business decision (along with all of the buyers of this often out-of-stock CPU) when it first hit the market a few months ago, and now - if rumors are to be believed - the company might just be killing it off. This would be a move reminiscent of Nintendo's recent NES Classic, which was apparently too popular for its $59.99 price tag (and scalpers worldwide rejoiced). Nintendo, of course, killed the NES Classic when it was at its height of popularity, perhaps as it was just not profitable enough to justify continued production? (And besides, a soon-to-be-$300-on-eBay SNES Classic was in the works.)

Might the Pentium G4560 be Intel's NES Classic? It seems a little too likely for comfort.

Source: TechPowerUp

Microcode Bug Affects Intel Skylake and Kaby Lake CPUs

Subject: Processors | June 26, 2017 - 08:53 AM |
Tagged: xeon, Skylake, processor, pentium, microcode, kaby lake, Intel, errata, cpu, Core, 7th generation, 6th generation

A microcode bug affecting Intel Skylake and Kaby Lake processors with Hyper-Threading has been discovered by Debian developers (who describe it as "broken hyper-threading"), a month after this issue was detailed by Intel in errata updates back in May. The bug can cause the system to behave 'unpredictably' in certain situations.

Intel CPUs.jpg

"Under complex micro-architectural conditions, short loops of less than 64 instructions that use AH, BH, CH or DH registers as well as their corresponding wider register (eg RAX, EAX or AX for AH) may cause unpredictable system behaviour. This can only happen when both logical processors on the same physical processor are active."

Until motherboard vendors begin to address the bug with BIOS updates the only way to prevent the possibility of this microcode error is to disable HyperThreading. From the report at The Register (source):

"The Debian advisory says affected users need to disable hyper-threading 'immediately' in their BIOS or UEFI settings, because the processors can 'dangerously misbehave when hyper-threading is enabled.' Symptoms can include 'application and system misbehaviour, data corruption, and data loss'."

The affected models are 6th and 7th-gen Intel processors with HyperThreading, which include Core CPUs as well as some Pentiums, and Xeon v5 and v6 processors.

Source: The Register

AMD's 16-Core Ryzen Threadripper CPUs Coming This Summer

Subject: Processors | May 16, 2017 - 07:22 PM |
Tagged: Zen, Threadripper, ryzen, processor, HEDT, cpu, amd

AMD revealed their entry into high-end desktop (HEDT) with the upcoming Ryzen "Threadripper" CPUs, which will feature up to 16 cores and 32 threads.

Threadripper 2.png

Little information was revealed along with the announcement, other than to announce availablility as "summer 2017", though rumors and leaks surrounding Threadripper have been seen on the internet (naturally) leading up to today's announcement, including this one from Wccftech. Not only will Threadripper (allegedly) offer quad-channel memory support and 44 PCI Express lanes, but they are also rumored to be released in a massive 4094-pin package (same as "Naples" aka EPYC) that most assuredly will not fit into the AM4 socket.

WCCFTECH Chart 2.png

Image credit: Wccftech

These Threadripper CPUs follow the lead of Intel's HEDT parts on X99, which are essentially re-appropriated Xeons with higher clock speeds and some feature differences such as a lack of ECC memory support. It remains to be seen what exactly will separate the enthusiast AMD platform from the EPYC datacenter platform, though the rumored base clock speeds are much higher with Threadripper.

Source: AMD

AMD Announces EPYC: A Massive 32-Core Datacenter SoC

Subject: Processors | May 16, 2017 - 06:49 PM |
Tagged: Zen, server, ryzen, processor, EPYC, datacenter, cpu, amd, 64 thread, 32 core

AMD has announced their new datacenter CPU built on the Zen architecture, which the company is calling EPYC. And epic they are, as these server processors will be offered with up to 32 cores and 64 threads, 8 memory channels, and 128 PCI Express lanes per CPU.

Epyc_1.jpg

Some of the details about the upcoming "Naples" server processors (now EPYC) were revealed by AMD back in March, when the upcoming server chips were previewed:

"Naples" features:

  • A highly scalable, 32-core System on Chip (SoC) design, with support for two high-performance threads per core
  • Industry-leading memory bandwidth, with 8-channels of memory per "Naples" device. In a 2-socket server, support for up to 32 DIMMS of DDR4 on 16 memory channels, delivering up to 4 terabytes of total memory capacity.
  • The processor is a complete SoC with fully integrated, high-speed I/O supporting 128 lanes of PCIe, negating the need for a separate chip-set
  • A highly-optimized cache structure for high-performance, energy efficient compute
  • AMD Infinity Fabric coherent interconnect for two "Naples" CPUs in a 2-socket system
  • Dedicated security hardware 

EPYC Screen.png

Compared to Ryzen (or should it be RYZEN?), EPYC offers a huge jump in core count and available performance - though AMD's other CPU announcement (Threadripper) bridges the gap between the desktop and datacenter offerings with an HEDT product. This also serves to bring AMD's CPU offerings to parity with the Intel product stack with desktop/high performance desktop/server CPUs.

epycpackage.jpg

EPYC is a large processor. (Image credit: The Tech Report)

While specifications were not offered, there have been leaks (of course) to help fill in the blanks. Wccftech offers these specs for EPYC (on the left):

Wccftech Chart.png

(Image credit: Wccftech)

We await further information from AMD about the EPYC launch.

Source: AMD

Build and Upgrade Components

Spring is in the air! And while many traditionally use this season for cleaning out their homes, what could be the point of reclaiming all of that space besides filling it up again with new PC hardware and accessories? If you answered, "there is no point, other than what you just said," then you're absolutely right. Spring a great time to procrastinate about housework and build up a sweet new gaming PC (what else would you really want to use that tax return for?), so our staff has listed their favorite PC hardware right now, from build components to accessories, to make your life easier. (Let's make this season far more exciting than taking out the trash and filing taxes!)

While our venerable Hardware Leaderboard has been serving the PC community for many years, it's still worth listing some of our favorite PC hardware for builds at different price points here.

Processors - the heart of the system.

No doubt about it, AMD's Ryzen CPU launch has been the biggest news of the year so far for PC enthusiasts, and while the 6 and 4-core variants are right around the corner the 8-core R7 processors are still a great choice if you have the budget for a $300+ CPU. To that end, we really like the value proposition of the Ryzen R7 1700, which offers much of the performance of its more expensive siblings for a really compelling price, and can potentially be overclocked to match the higher-clocked members of the Ryzen lineup, though moving up to either the R7 1700X or R7 1800X will net you higher clocks (without increasing voltage and power draw) out of the box.

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Really, any of these processors are going to provide a great overall PC experience with incredible multi-threaded performance for your dollar in many applications, and they can of course handle any game you throw at them - with optimizations already appearing to make them even better for gaming.

Don't forget about Intel, which has some really compelling options starting even at the very low end (Pentium G4560, when you can find one in stock near its ~$60 MSRP), thanks to their newest Kaby Lake CPUs. The high-end option from Intel's 7th-gen Core lineup is the Core i7-7700K (currently $345 on Amazon), which provides very fast gaming performance and plenty of power if you don't need as many cores as the R7 1700 (or Intel's high-end LGA-2011 parts). Core i5 processors provide a much more cost-effective way to power a gaming system, and an i5-7500 is nearly $150 less than the Core i7 while providing excellent performance if you don't need an unlocked multiplier or those additional threads.

Continue reading our Spring Buyer's Guide for selections of graphics cards, motherboards, memory and more!

AMD Ryzen Community Update Addresses Windows 10 Thread Scheduling, SMT Performance, and More

Subject: Processors | March 13, 2017 - 08:48 PM |
Tagged: Windows 7, windows 10, thread scheduling, SMT, ryzen, Robert Hallock, processor, cpu, amd

AMD's Robert Hallock (previously the Head of Global Technical Marketing for AMD and now working full time on the CPU side of things) has posted a comprehensive Ryzen update, covering AMD's official stance on Windows 10 thread scheduling, the performance implications of SMT, Windows power management settings, and more. The post in its entirety is reproduced below, and also available from AMD by following this link.

AMD_RYZEN.png

(Begin statement:)

It’s been about two weeks since we launched the new AMD Ryzen™ processor, and I’m just thrilled to see all the excitement and chatter surrounding our new chip. Seems like not a day goes by when I’m not being tweeted by someone doing a new build, often for the first time in many years. Reports from media and users have also been good:

  • “This CPU gives you something that we needed for a long time, which is a CPU that gives you a well-rounded experience.” –JayzTwoCents
  • Competitive performance at 1080p, with Tech Spot saying the “affordable Ryzen 7 1700” is an “awesome option” and a “safer bet long term.”
  • ExtremeTech showed strong performance for high-end GPUs like the GeForce GTX 1080 Ti, especially for gamers that understand how much value AMD Ryzen™ brings to the table
  • Many users are noting that the 8-core design of AMD Ryzen™ 7 processors enables “noticeably SMOOTHER” performance compared to their old platforms.

While these findings have been great to read, we are just getting started! The AMD Ryzen™ processor and AM4 Platform both have room to grow, and we wanted to take a few minutes to address some of the questions and comments being discussed across the web.

Thread Scheduling

We have investigated reports alleging incorrect thread scheduling on the AMD Ryzen™ processor. Based on our findings, AMD believes that the Windows® 10 thread scheduler is operating properly for “Zen,” and we do not presently believe there is an issue with the scheduler adversely utilizing the logical and physical configurations of the architecture.

As an extension of this investigation, we have also reviewed topology logs generated by the Sysinternals Coreinfo utility. We have determined that an outdated version of the application was responsible for originating the incorrect topology data that has been widely reported in the media. Coreinfo v3.31 (or later) will produce the correct results.

Finally, we have reviewed the limited available evidence concerning performance deltas between Windows® 7 and Windows® 10 on the AMD Ryzen™ CPU. We do not believe there is an issue with scheduling differences between the two versions of Windows.  Any differences in performance can be more likely attributed to software architecture differences between these OSes.

Going forward, our analysis highlights that there are many applications that already make good use of the cores and threads in Ryzen, and there are other applications that can better utilize the topology and capabilities of our new CPU with some targeted optimizations. These opportunities are already being actively worked via the AMD Ryzen™ dev kit program that has sampled 300+ systems worldwide.

Above all, we would like to thank the community for their efforts to understand the Ryzen processor and reporting their findings. The software/hardware relationship is a complex one, with additional layers of nuance when preexisting software is exposed to an all-new architecture. We are already finding many small changes that can improve the Ryzen performance in certain applications, and we are optimistic that these will result in beneficial optimizations for current and future applications.

Temperature Reporting

The primary temperature reporting sensor of the AMD Ryzen™ processor is a sensor called “T Control,” or tCTL for short. The tCTL sensor is derived from the junction (Tj) temperature—the interface point between the die and heatspreader—but it may be offset on certain CPU models so that all models on the AM4 Platform have the same maximum tCTL value. This approach ensures that all AMD Ryzen™ processors have a consistent fan policy.

Specifically, the AMD Ryzen™ 7 1700X and 1800X carry a +20°C offset between the tCTL° (reported) temperature and the actual Tj° temperature. In the short term, users of the AMD Ryzen™ 1700X and 1800X can simply subtract 20°C to determine the true junction temperature of their processor. No arithmetic is required for the Ryzen 7 1700. Long term, we expect temperature monitoring software to better understand our tCTL offsets to report the junction temperature automatically.

The table below serves as an example of how the tCTL sensor can be interpreted in a hypothetical scenario where a Ryzen processor is operating at 38°C.

TEMPS.png

Power Plans

Users may have heard that AMD recommends the High Performance power plan within Windows® 10 for the best performance on Ryzen, and indeed we do. We recommend this plan for two key reasons: 

  1. Core Parking OFF: Idle CPU cores are instantaneously available for thread scheduling. In contrast, the Balanced plan aggressively places idle CPU cores into low power states. This can cause additional latency when un-parking cores to accommodate varying loads.
  2. Fast frequency change: The AMD Ryzen™ processor can alter its voltage and frequency states in the 1ms intervals natively supported by the “Zen” architecture. In contrast, the Balanced plan may take longer for voltage and frequency (V/f) changes due to software participation in power state changes.

In the near term, we recommend that games and other high-performance applications are complemented by the High Performance plan. By the first week of April, AMD intends to provide an update for AMD Ryzen™ processors that optimizes the power policy parameters of the Balanced plan to favor performance more consistent with the typical usage models of a desktop PC.

Simultaneous Multi-threading (SMT)

Finally, we have investigated reports of instances where SMT is producing reduced performance in a handful of games. Based on our characterization of game workloads, it is our expectation that gaming applications should generally see a neutral/positive benefit from SMT. We see this neutral/positive behavior in a wide range of titles, including: Arma® 3, Battlefield™ 1, Mafia™ III, Watch Dogs™ 2, Sid Meier’s Civilization® VI, For Honor™, Hitman™, Mirror’s Edge™ Catalyst and The Division™. Independent 3rd-party analyses have corroborated these findings.

For the remaining outliers, AMD again sees multiple opportunities within the codebases of specific applications to improve how this software addresses the “Zen” architecture. We have already identified some simple changes that can improve a game’s understanding of the "Zen" core/cache topology, and we intend to provide a status update to the community when they are ready.

Wrap-up

Overall, we are thrilled with the outpouring of support we’ve seen from AMD fans new and old. We love seeing your new builds, your benchmarks, your excitement, and your deep dives into the nuts and bolts of Ryzen. You are helping us make Ryzen™ even better by the day.  You should expect to hear from us regularly through this blog to answer new questions and give you updates on new improvements in the Ryzen ecosystem.

(End statement.)

Such topics as Windows 7 vs. Windows 10 performance, SMT impact, and thread scheduling will no doubt still be debated, and AMD has correctly pointed out that optimization for this brand new architecture will only improve Ryzen performance going forward. Our own findings as to Ryzen and the Windows 10 thread scheduler appear to be validated as AMD officially dismisses performance impact in that area, though there is still room for improvement in other areas from our initial gaming performance findings. As mentioned in the post, AMD will have an update for Windows power plan optimization by the first week of April, and the company has "already identified some simple changes that can improve a game’s understanding of the 'Zen' core/cache topology, and we intend to provide a status update to the community when they are ready", as well.

It is refreshing to see a company publicly acknowledging the topics that have resulted in so much discussion in the past couple of weeks, and their transparency is commendable, with every issue (that this author is aware of) being touched on in the post.

Source: AMD