A large number of column inches have been put towards describing and explaining AMD's new underlying scalable interconnect: the Infinity Fabric. A superset of HyperTransport, this interconnect is designed to enable both the CPUs and GPUs from AMD to communicate quickly, at high bandwidth, low latency, and with low power with the ability to scale out to large systems. One of the results of the implementation of Infinity Fabric on the processor side is that it runs at the frequency of the DRAM in the system, with a secondary potential uplift in performance when using faster memory. The debate between enthusiasts, consumers and the general populous in regards to Ryzen's memory performance and has been an ever-raging topic since the AGESA 1.0.0.6 BIOS updates were introduced several weeks ago. We dedicated some time to test the effect of high-performance memory on Ryzen using Team Group's latest Night Hawk RGB memory.

Memory Scaling on Ryzen 7: AMD's Infinity Fabric

Typically overlooked by many when outlining components for a new system, memory can a key role in system operation. For the last ten years, memory performance for consumers has been generally inconseqential on memory speed: we tested this for DDR3 for Haswell and DDR4 for Haswell-E, and two major conclusions came out of that testing:

  • As long as a user buys something above the bargain basement specification, performance is better than the worst,
  • Performance tapers to a point with memory, very quickly hitting large price increases for little gain,
  • The only major performance gain that scales comes from integrated gaming

So it is perhaps not surprising to read in forums that the general pervasive commentary is that “memory speed over DDR4-2400 does not matter and is a con by manufacturers”. This has the potential to change with AMD's Infinity Fabric, where the interconnect speed between sets of cores is directly linked with the memory speed. For any workload that transfers data between cores or out to main memory, the speed of the Infinity Fabric can potentially directly influence the performance. Despite the fact that pure speed isn’t always the ‘be all and end all’ of establishing performance gains, it has the potential to provide some gains with this new interconnect design.

The Infinity Fabric (hereafter shortened to IF) consists of two fabric planes: the Scalable Control Fabric (SCF) and the Scalable Data Fabric (SDF). 

The SCF is all about control: power management, remote management and security and IO. Essentially when data has to flow to different elements of the processor other than main memory, the SCF is in control.

The SDF is where main memory access comes into play. There's still management here - being able to organize buffers and queues in order of priority assists with latency, and the organization also relies on a speedy implementaiton. The slide below is aimed more towards the IF implementation in AMD's server products, such as power control on individual memory channels, but still relevant to accelerating consumer workflow.

AMD's goal with IF was to develop an interconnect that could scale beyond CPUs, groups of CPUs, and GPUs. In the EPYC server product line, IF connects not only cores within the same piece of silicon, but silicon within the same processor and also processor to processor. Two important factors come into the design here: power (usually measured in energy per bit transferred) and bandwidth.

The bandwidth of the IF is designed to match the bandwidth of each channel of main memory, creating a solution that should potentially be unified without resorting to large buffers or delays.

Discussing IF in the server context is a bit beyond the scope of what we are testing in this article, but the point we're trying to get across is that IF was built with a wide scope of products in mind. On the consumer platform, while IF isn't necessarily used to such a large degree as in server, the potential for the speed of IF to affect performance is just as high.

AGESA 1.0.0.6 (aka AGESA 1006) and Memory Support

At the time of the launch of Ryzen, a number of industry sources privately disclosed to us that the platform side of the product line was rushed. There was little time to do full DRAM compatibility lists, even with standard memory kits in the marketplace, and this lead to a few issues for early adopters to try and get matching kits that worked well without some tweaking. Within a few weeks this was ironed out when the memory vendors and motherboard vendors had time to test and adjust their firmware.

Overriding this was a lower than expected level of DRAM frequency support. During the launch, AMD had promized that Ryzen would be compatible with high speed memory, however reviewers and customers were having issues with higher speed memory kits (3200 MT/s and above) . These issues have been addressed via a wave of motherboard BIOS updates built upon an updated version of the AGESA (AMD Generic Encapsulated Software Architecture), specifically up to version 1.0.0.6.

Given that the Ryzen platform itself has matured over the last couple of months, now is the time for a quick test on the scalability on AMDs Zen architecture to see if performance can scale consistency with raw memory frequency, or if any performance gains are achieved at all. For this testing we are using Team Group's latest Night Hawk RGB memory kit at several different memory straps under our shorter CPU and CPU gaming benchmark suites.

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Team Group's Night Hawk RGB Memory: 2x8GB of DDR4-3000 CL16
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  • Threska - Saturday, September 30, 2017 - link

    That could potentially be VERY interesting since GPUs are one of the few things that need a high bandwidth.
  • Thefinaleofseem - Wednesday, September 27, 2017 - link

    Pity that latency wasn't tested as well as clocks. It would be interesting to see how Ryzen scales with both factors.
  • germz1986 - Wednesday, September 27, 2017 - link

    I would really like to see a review of this G.Skill kit F4-3200C14D-16GFX, It seems it was the first ryzen optimized set for 3200 @ fairly low timings out of the box.
  • kpb321 - Wednesday, September 27, 2017 - link

    Small nitpick

    DDR4-2933 16-18-18 (Nearest to memory kit rating)
    DDR4-3066 16-18-18

    DDR4-3066 is actually closer to the memories kits rated 3000 speed. 2933 is the max speed supported by the processor that is below the rated speed of the kit. 3066 would be a slight overclock.
  • Gavin Bonshor - Wednesday, September 27, 2017 - link

    It probably needs re-wording as 2933MHz CL16 is what the XMP profile runs at on Ryzen with this particular kit.
  • nismotigerwvu - Wednesday, September 27, 2017 - link

    Perhaps he was going by "The Price Is Right" rules :)
  • Dr. Swag - Wednesday, September 27, 2017 - link

    You guys should've lowered timings along with frequency to keep latency constant while increasing bandwidth/IF clock speeds
  • kpb321 - Wednesday, September 27, 2017 - link

    Those ashes results are interesting. They are the only one that doesn't show a fairly straight forward improvement as memory speed increases. For the tested kit you'd actually get better performance dropping speed down to DDR4 2800 instead of DDR4 2933. Same thing if you are OCs the memory 3200 is faster than 3333.

    Overall this makes me happy that I decided to spend an extra buck or two when I put together my Ryzen system to grab a 3000 kit which happened to be from Team Group also over the typical 2400/2666 kits around the same price. I hadn't typically seen the value in paying a premium for faster memory kits but the even the early indications showed it was more important for Ryzen systems and this shows how important it can be.
  • DanNeely - Wednesday, September 27, 2017 - link

    That result makes me suspect the dominant effect we're seeing is something random not memory related.
  • SpartanJet - Wednesday, September 27, 2017 - link

    Really disappointing results, all people talked about is how Ryzen scalled with memory. I guess I'm going with Intel 8700k after all.

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