Geeks for your information

Full Version: AMD Threadripper Pro 3995WX Review: Ripping With 8 Memory Channels
You're currently viewing a stripped down version of our content. View the full version with proper formatting.
Quote:
[Image: Gtq48bop6hGP2n8KG7Gk6Z-1200-80.jpg.webp]

Threadripping with eight memory channelsOur Verdict

AMD's Threadripper Pro models offer multiple entry points to eight-channel memory and 128 lanes of PCIe 4.0 support, setting a new bar for professional-class performance in the process.

For
  • Excellent rendering performance
  • Competitive performance in GPU-accelerated applications
  • Eight-Channel memory interface
  • 128 Lanes of PCIe 4.0
  • Fully-validated ECC memory support
Against
  • Pricing isn't available yet
  • Some workloads don't benefit from 128 threads
AMD's Threadripper 3000 processors are best known for wreaking complete devastation on Intel's HEDT lineup, easily outclassing the incumbent Cascade Lake-X processors in key areas, and upsetting our CPU Benchmark Hierarchy and Best CPUs for Workstations rankings in one fell swoop. While we certainly weren't accustomed to seeing Intel so utterly trounced in a segment it has traditionally ruled with pricing impunity, the Threadripper 3000 processors did fall short in one area – they didn't enable all eight memory channels or the full complement of PCIe lanes. AMD's Threadripper Pro fixes that, and the chips are coming to retail outlets soon. 

The ludicrously-appointed 64-core 128-thread 3995WX serves as the head of AMD's new four-pronged Threadripper Pro lineup, which extends down to 12-core models. At launch, all of the chips were exclusive to Lenovo's ThinkStation P620 workstations. However, AMD recently announced that it was bringing the top three models to retail outlets, and the company's partners announced several new motherboards, like the ASUS Pro WS Sage SE and the Gigabyte WRX80-SU8. Unfortunately, AMD hasn't shared retail pricing details yet.  

The consumer Threadripper models also weren't designed to fully address the needs of the high-volume and high-margin OEM workstation market, which is key as AMD looks to expand its market share-stealing streak. AMD never specifically designed or marketed its Threadripper lineup for the workstation market, but the new Threadripper Pro chips are designed to allow the company to penetrate the lucrative OEM workstation segment for the first time in 15 years, opening a new front in AMDs battle against Intel's highest-end chips. 

AMD Threadripper Pro Series Cores / Threads Base / Boost (GHz) L3 Cache (MB) PCIe DRAM TDP

Threadripper Pro 3995WX 64 / 128 2.7 / 4.2 256 MB 128 Gen 4 Eight-Channel DDR4-3200 280W
Threadripper Pro 3975WX 32 / 64 3.5 / 4.2 128 128 Gen 4 Eight-Channel DDR4-3200 280W
Threadripper Pro 3955WX 16 / 32 3.9 / 4.3 64 128 Gen 4 Eight-Channel DDR4-3200 280W
Threadripper Pro 3945WX 12 / 24 4.0 / 4.3 62 128 Gen 4 Eight-Channel DDR4-3200 280W

Given that AMD's Threadripper 3990X has already entirely redefined the high end desktop (HEDT) on the consumer side of the equation, it's natural to expect AMD to eventually bring the advantages of its Zen 2 microarchitecture and the 7nm process to the workstation market – but that hasn't been a quick and easy path. Fielding OEM-class systems requires passage through strict validation procedures. In the past, AMD's customers with a strict need for OEM systems either went with the Ryzen Pro or EPYC server models instead, or chose a consumer-focused Threaddripper system from smaller custom system makers. That's a gap that the new Threadripper Pro series aims to fill, and it certainly also helps AMD build OEM relationships and readies them for AMD's future chips, like the Zen 3 Threadripper models that will undoubtedly come in due course.  

The Threadripper Pro 3995WX comes with plenty of additives to earn the distinction of the most powerful workstation chip on the market - it's 64 cores easily outweigh Intel's maximum of 28 cores in a single-socket workstation. In threaded workloads, the 3995WX can even outperform dual-socket Intel systems that come with up to 56 cores. 

Aside from the class-leading core counts, AMD's Threadripper Pro also comes with other features that give it a leg up over competing chips. In many respects, the 3995WX is akin to AMD's consumer-focused Threadripper 3990X – but on steroids. While both chips feature the same overall design with 64 cores and 128 threads, the Pro series brings eight DDR4-3200 memory channels to bear, thus providing increased memory throughput over AMD's quad-channel Threadripper models, not to mention Intel's six-channel Xeon W models that top out at DDR4-2933. You'll have to step up to a dual-socket Intel-powered workstation to find more available memory channels. 

The expanded memory throughput also addresses a key weakness that limits AMD's consumer Threadripper processors in some applications - memory throughput per core - while also handily serving up more total memory bandwidth than a single Intel Xeon W chip.

AMD also bumped maximum memory capacity up to 2TB in systems that support two DIMMs per channel, a big jump over the 256GB supported with the company's own consumer models, not to mention Intel's competing Xeon W chips that have a 1TB limit. You'll have to step up to Intel's Xeon Scalable lineup, which is largely meant for servers instead of workstations, to match Threadripper Pro's 2TB of memory capacity.  

AMD also increased PCIe 4.0 support from 72 lanes with the standard Threadripper models to 128 with every chip in the Pro series, all while Intel's Xeon W remains mired on the PCIe 3.0 interface with 64 lanes. The doubled throughput of each PCIe 4.0 lane, not to mention that the 3995WX has 2.5X more lanes, is a boon for professional users that want to use the fastest high-performance storage and networking additives, or have the ability to connect four Quadro GPUs in a single-socket chassis.

AMD positions the Threadripper Pro chips for professional studios, designers, engineers, and data scientists, all of which can benefit from increased connectivity. We put the chips to the test in professional-class applications and our standard desktop PC test suite. And yes, we took the chip for a spin through our gaming suite to see how the extra four memory channels impact gaming performance. 
...
Continue Reading