AMD Ryzen 3000 "Matisse" processors are multi-chip modules of two kinds of dies - one or two 7 nm 8-core "Zen 2" CPU chiplets, and an I/O controller die that packs the processor's dual-channel DDR4 memory controller, PCI-Express gen 4.0 root-complex, and an integrated southbridge that puts out some SoC I/O, such as two SATA 6 Gbps ports, four USB 3.1 Gen 2 ports, LPCIO (ISA), and SPI (for the UEFI BIOS ROM chip). It was earlier reported that while the Zen 2 CPU core chiplets are built on 7 nm process, the I/O controller is 14 nm. We have confirmation now that the I/O controller die is built on the more advanced 12 nm process, likely GlobalFoundries 12LP. This is the same process on which AMD builds its "Pinnacle Ridge" and "Polaris 30" chips. The 7 nm "Zen 2" CPU chiplets are made at TSMC.

AMD also provided a fascinating technical insight to the making of the "Matisse" MCM, particularly getting three highly complex dies under the IHS of a mainstream-desktop processor package, and perfectly aligning the three for pin-compatibility with older generations of Ryzen AM4 processors that use monolithic dies, such as "Pinnacle Ridge" and "Raven Ridge." AMD innovated new copper-pillar 50µ bumps for the 8-core CPU chiplets, while leaving the I/O controller die with normal 75µ solder bumps. Unlike with its GPUs that need high-density wiring between the GPU die and HBM stacks, AMD could make do without a silicon interposer or TSVs (through-silicon-vias) to connect the three dies on "Matisse." The fiberglass substrate is now "fattened" up to 12 layers, to facilitate the inter-die wiring, as well as making sure every connection reaches the correct pin on the µPGA.

AMD X570 is the company's first in-house design desktop motherboard chipset for the AM4 platform. The company sourced earlier generations of chipset from ASMedia. A chipset in context of the AM4 platform only serves to expand I/O connectivity, since an AM4 processor is a full-fledged SoC, with an integrated southbridge that puts out SATA and USB ports directly from the CPU socket, in addition to LPCIO (ISA), HD audio bus, and SPI to interface with the firmware ROM chip. The X470 "Promontory Low Power" chipset runs really cool, with a maximum TDP of 5 Watts, and the ability to lower power to get its TDP down to 3W. The X570, on the other hand, has a TDP of "at least 15 Watts." A majority of the X570 motherboards we've seen at Computex 2019 had active fan-heatsinks over the chipset. We may now have a possible explanation for this - there are just too many things on the chipset.

According to AMD, the X570 chipset by itself can be made to put out a staggering twelve SATA 6 Gbps ports (not counting the two ports put out by the AM4 SoC). A possible rationale behind this may have been to enable motherboard designers to equip every M.2 slot on the motherboard with SATA wiring in addition to PCIe, without needing switches that reroute SATA connection from one of the physical ports. It's also possible that AMD encouraged motherboard designers to not wire out SATA ports from the AM4 SoC as physical ports to save costs on switches, and dedicate one of them to the M.2 slot wired to the SoC. With the two SATA ports from the SoC out of the equation, and every other M.2 slot getting a direct SATA connection from the chipset, motherboard designers can wire out the remaining SATA ports as physical ports, without spending money on switches, or worrying about customer complaints on one of their drives not working due to automatic switching. This is an extreme solution to a rather simple problem.

AMD senior technical marketing manager Robert Hallock, responding to a specific question on Twitter, confirmed that the 3rd generation Ryzen processors do feature soldered integrated heatspreaders (IHS). Soldering as an interface material is preferred as it offers better heat transfer between the processor die and the IHS, as opposed to using a fluid TIM such as pastes. "Matisse" will be one of the rare few examples of a multi-chip module with a soldered IHS. The package has two kinds of dies, one or two 7 nm "Zen 2" 8-core CPU chiplets, and one 14 nm I/O Controller die.

The most similar example of such a processor would be Intel's "Clarkdale" (pictured below), which has its CPU cores sitting on a 32 nm die, while the I/O, including memory controller and iGPU, are on a separate 45 nm die. On-package QPI connects the two. Interestingly, Intel used two different sub-IHS interface materials for "Clarkdale." While the CPU die was soldered, a fluid TIM was used for the I/O controller die. It would hence be very interesting to see if AMD solders both kinds of dies under the "Matisse" IHS, or just the CPU chiplets. Going by Hallock's strong affirmative "Like a boss," we lean toward the possibility of all dies being soldered.Image Credit: TheLAWNOOB (OCN Forums)

Motherboard vendors are betting big on the success of AMD's "Valhalla" desktop platform that combines a Ryzen 3000-series Zen 2 processor with an AMD X570 chipset motherboard, and have responded with some mighty premium board designs. GIGABYTE deployed its full spectrum of Aorus branding, including Ultra, Elite, ITX Pro, Master, and Xtreme. The X570 I Aorus Pro WiFi mini-ITX motherboard is an impressive feat of engineering despite its designers having to wrestle with the feisty new PCIe gen 4 chipset. It draws power from a combination of 24-pin and 8-pin connectors, and conditions power for the SoC with an impressive 8-phase VRM that uses high-grade PowIRstage components. A rather tall fan-heatsink cools the X570 chipset, with a 30 mm fan.

Connectivity options on the X570 I Aorus Pro WiFi are surprisingly aplenty. The sole expansion slot is a PCI-Express 4.0 x16, but the storage connectivity includes not one, but two M.2-2280 slots (reverse side of the PCB), each with PCI-Express 4.0 x4 and SATA 6 Gbps wiring. Four SATA 6 Gbps ports make for the rest of the storage connectivity. Networking options include 2.4 Gbps 802.11ax WLAN, Bluetooth 5.0 (Intel , and 1 GbE, all pulled by Intel-made controllers. USB connectivity includes six 5 Gbps USB 3.2 gen 1, and two 10 Gbps USB 3.2 gen 2 ports (of which one is type-C), and two 5 Gbps ports by headers. The onboard audio solution has 6-channel analog output, but is backed by a premium Realtek ALC1220VB Enhance CODEC (114 dBA SNR).

KLEVV at its Computex 2019 booth unveiled a new line of high-performance USB flash drives. It also brought along its latest variants of CRAS series M.2 NVMe SSDs and DDR4 memory, which come with a dazzling/blinding (take your pick) amount of RGB LED embellishment. We begin with the Portable Ghost, branded as a "portable SSD" and not a flash-drive. This is because the USB 3.1 gen 2 type-C connection pulls a PCIe/NVMe internal SSD. When plugged into a PC or a USB charger, the drive can also work as a wireless drive to your other devices over Bluetooth 4.2. The drive comes in two variants based on capacity, which significantly differ in hardware. The 240 GB variant is pulled by a JMicron JM5583 controller, while the 480 GB variant has a Silicon Motion SM2263EN. Both models use 72-layer 3D TLC NAND flash, and have the same on-paper performance figures, with up to 1,250 MB/s reads/writes. The drive isn't without two RGB LED diffusers.

The Blu RC30 is another fascinating, albeit slower drive, that's properly marketed as a flash drive. Built in the conventional 2-piece capped form-factor, the drive features a USB 3.1 gen 1 (5 Gbps) type-A connection. An internal battery which soaks up power when plugged in, lets the drive function wireless over Bluetooth 4.2, and also be used as a wireless presentation tool (a clicker), with capacitive touch surface and a couple of buttons, which imitate a mouse. Built in capacities of 32 GB, 64 GB, and 128 GB, the Blu RC30 offers sequential transfer-rates of up to 250 MB/s reads on all three models, and write-speeds rated at 40 MB/s for the 32 GB model, 50 MB/s for 64 GB, and 90 MB/s for the 128 GB model. Transfer rates are severely throttled in wireless mode. We then moved on to its SSD and memory products.

ZADAK may have dropped the "511" from its name, but remains a sought-after boutique hardware brand for case-modders. At its Computex 2019 booth, the company showed off its latest memory modules, cooling products, and a few case-mods that put the two together. The centerpiece at the booth was the Spark line of premium DDR4 memory modules. Silver accents of brushed aluminium top a darker shade, crowned by a silicone addressable-RGB LED diffuser. Each module has five lighting zones - top, top sides, and corners, which the maker calls "Dynamic multi-zone RGB." Each module cycles between 8 lighting presets, although with a 3-pin ARGB connection, you can play with the lighting via software.

ZADAK Spark memory comes in single-module, dual-channel, and quad-channel kits of 8 GB and 16 GB modules, which are further differentiated in four speeds, DDR4-3000, DDR4-3200, DDR4-3600, and DDR4-4133. Up to 3200 MHz, these modules offer timings of 16-18-18-38@1.35V, which loosen to 17-19-19-39@1.35V for DDR4-3600, and 19-21-21-42@1.4V for DDR4-4133. ZADAK claims it tested each memory kit for advertised settings on both Intel Core and AMD Ryzen platforms. Prices start at USD $159.99 for a 2x 8 GB DDR4-3200 memory kit. Next up, is the ZADAK Spark AIO closed-loop liquid CPU cooler.

With AMD chipset based motherboards like X570 and next-generation Ryzen 3000 series CPUs delivering the 4.0 version of the PCIe protocol for consumers, products based on the faster protocol are bound to take advantage of its improvements - especially in terms of better bandwidth.

At their Computex booth, Gigabyte showed off some pretty impressive results of their PCIe 4.0 based SSD card. The so-called "Auros AIC Gen4 SSD" is a performance monster. It is able to pack up to four PCIe 4.0 M.2 SSDs that can go up to 2 TB of density each, for a maximum 8 TB total storage. Put them in RAID 0 configuration, though, and you will get some amazing performance numbers. Gigabyte demonstrated speeds exceeding 15 GB/s in sequential reads and writes, providing much more bandwidth than what has ever seen before ina consumer-geared product. The SSD comes with an aluminum shroud with pre-applied thermal pads to facilitate heat dissipation. Additionally, there is a blower fan attached to the card to keep a constant flow of fresh air, which seems like a must if you're packing four M.2 drives inside a tiny aluminum case.

While its honestly staggering see how many products ASUS had on display at Computex this year, I think the number of laptops might take the cake. They had just about everyone imaginable on hand except a kitchen sink. The ROG lineup was represented by the Zephyrus M GU502, Zephyrus S GX502, Zephyrus G GA502, Strix Hero III, Strix SCAR III, and last but not least the Mothership. Meanwhile, the TUF Gaming brand demoed the FX705DU and FX505DU. More surprising is the fact AMD's Ryzen 3750H makes an appearance not only in the TUF Gaming laptops but in the Zephyrus series as well bringing a bit more selection to the once Intel dominated mobile market.

Taking a closer look at the Republic of Gamers lineup and our attention is immediately drawn to the ROG Mothership which due to its design is the most unique laptop on display here. Featuring a detachable keyboard with RGB lighting, eight heat pipes, liquid metal cooling, 4K G-SYNC display, Intel i9-8950H CPU overclocked, NVIDIA GeForce RTX 2080, and NVMe SSDs, it stands out from the crowd. Gone is the traditional clamshell if you so choose without sacrificing performance. It definitely proves to be an eye-catching product.

An AMD-based system's most important performance pairing lies in the CPU and system RAM, as a million articles written ever since the introduction of AMD's first generation Ryzen CPUs have shown (remember the races for Samsung B-die based memory?). There are even tools that allow you to eke out the most performance out of your AMD system via fine memory overclocking and timings adjustment, which just goes to show the importance the enthusiast community derives from such tiny details that maximize your AMD Zen-based CPU performance. Now, notorious leaker @momomo_us has seemingly confirmed that AMD has worked wonders on its memory controller, achieving a base JEDEC 3200 MHz specification - up from the previously officially supported DDR4-2666 speeds in the first-gen Ryzen (updated to DDR4-2933 speeds on the 12 nm update).

ECS has introduced a new model into their Liva series of Mini PCs - this time, powered by AMD Ryzen APUs. The ECS LIVA A320 is a 1-liter Mini Pc (book-sized, according to the company, but I guess that depends on the books you prefer to read), and makes use of either an AMD Ryzen 3 or Ryzen 5 APU with up to 35 W TDP.

There's a lot to like about this little Mini PC that could, which ECS is marketing at light gaming workloads and all other content consumption and office-related shenanigans. There is a tooless design for easy upgradeability, 2x DDR4 support in the SO-DIMM form factor, internal support for an M.2 drive (which helps save space in such a small enclosure, even though a 2.5" HDD or SSD is still supported). A VESA mount means this can be installed in the back of a monitor or television for your content consumption needs.

AMD today posted its latest version of the Radeon Software Adrenalin 2019 Edition. Version 19.5.2, signifying the second release for the month of May 2019, comes with release-date optimization for "Total War : Three Kingdoms." Among the issues fixed are multi-display screen flickering problems noticed on Radeon VII, incorrect maximum temperature values reported by Radeon WattMan for certain GPUs, GPU Utilization showing up for unsupported products on Radeon Performance Metrics Overlay; and HDR video freezing or experiencing corruption on certain Ryzen APUs. Grab the drivers from the link below.

DOWNLOAD: AMD Radeon Software Adrenalin 19.5.2 betaThe change-log follows.

AMD X570 is the company's first in-house design socket AM4 motherboard chipset, with the X370 and X470 chipsets being originally designed by ASMedia. With the X570, AMD hopes to leverage new PCI-Express gen 4.0 connectivity of its Ryzen 3000 Zen2 "Matisse" processors. The desktop platform that combines a Ryzen 3000 series processor with X570 chipset is codenamed "Valhalla." A rough platform diagram like what you'd find in motherboard manuals surfaced on ChipHell, confirming several features. To maintain pin-compatibility with older generations of Ryzen processors, Ryzen 3000 has the same exact connectivity from the SoC except two key differences.

On the AM4 "Valhalla" platform, the SoC puts out a total of 28 PCI-Express gen 4.0 lanes. 16 of these are allocated to PEG (PCI-Express graphics), configurable through external switches and redrivers either as single x16, or two x8 slots. Besides 16 PEG lanes, 4 lanes are allocated to one M.2 NVMe slot. The remaining 4 lanes serve as the chipset bus. With X570 being rumored to support gen 4.0 at least upstream, the chipset bus bandwidth is expected to double to 64 Gbps. Since it's an SoC, the socket is also wired to LPCIO (SuperIO controller). The processor's integrated southbridge puts out two SATA 6 Gbps ports, one of which is switchable to the first M.2 slot; and four 5 Gbps USB 3.x ports. It also has an "Azalia" HD audio bus, so the motherboard's audio solution is directly wired to the SoC. Things get very interesting with the connectivity put out by the X570 chipset.Update May 21st: There is also information on the X570 chipset's TDP.
Update May 23rd: HKEPC posted what looks like an official AMD slide with a nicer-looking platform map. It confirms that AMD is going full-tilt with PCIe gen 4, both as chipset bus, and as downstream PCIe connectivity.

ZADAK announced today the immediate worldwide release of their latest ultra-high-performance RGB gaming memory module, the SPARK RGB DDR4. Firmly aimed at the high-end PC enthusiasts and gamers market, the SPARK RGB DDR4 brings together powerful memory module, overclocking capability and top-notch design elements to form a valuable addition to the ZADAK DDR4 family that is compatible with high-end motherboards.

SPARK RGB DDR4 modules are available in kits ranging from 16GB (2x8GB) up to 64GB (4x16GB) with the top-end models running at 4133 MHz. Overclocking is made simple with XMP 2.0 support allowing users to select their preferred profile for stable and reliable overclocking.

The folks over at Videocardz have treated us to a leak on MSI's upcoming X570 motherboards. The company's mid-tier MPG motherboards usually include the likes of the Gaming Carbon and Gaming Plus motherboards, and this round of motherboard development is no different. Both motherboards join leaked designs from other brands that showed active cooling being mounted on top of the chipset, a throwback to another era.

The leaked Gaming Plus is the lower-tier of the two leaked solutions of today, cutting on reinforcements on some expansion ports (such as the PCIe 16x slot). The Gaming Pro Carbon features a fancier design (with RGB lighting); the chipset hroud also serves as cooling for M.2 slots you can populate underneath (or so it seems). The Gaming Pro Carbon has more attention to detail on the placement of connectors such as SATA, and seems to have a slight advantage on the overall motherboard power delivery circuits, but these are just being eyeballed. One thing we can see is that while the Gaming Pro Carbon features MSI's Audio Boost feature, the Gaming Plus doesn't. Expect more details to be available closer to launch.

During AMD's annual shareholder meeting today, AMD president and CEO Dr. Lisa Su confirmed the launch of next-generation AMD Ryzen, EPYC CPUs and Navi GPUs for the third quarter of this year. The expected products are going to be manufactured on TSMC's 7 nm process and will be using new and improved architectures.

Ryzen 3000 series CPUs are rumored to have up to as much as 16 cores in Ryzen 9 SKUs, 12 cores in Ryzen 7 SKUs and 8 cores in Ryzen 5 SKUs. EPYC server CPUs will be available in models up to 64 cores. All of the new CPUs will be using AMD "Zen 2" architecture that will offer better IPC performance and, as rumors suggest for consumer models, are OC beasts. Navi GPUs are the new 7 nm GPUs that are expected to be very competitive both price and performance wise to NVIDIA's Turing series, hopefully integrating new technologies such as dedicated Ray Tracing cores for higher frame rates in Ray Tracing enabled games. No next generation ThreadRipper launch date was mentioned, so we don't yet know when and if that will that land.

BIOSTAR,a leading manufacturer of motherboards, graphics cards, and storage devices offers piece of mind for its customers, announcing the BIOSTAR AMD AM4 300-series and 400-series motherboardswill be compatible with upcoming 3rd Gen AMD RYZEN CPUs. BIOSTAR's engineering team have been working relentlessly prior to the availability of the upcoming CPUs to ensure BIOSTAR products keep their promise of ensuring customers get the best value without worrying about future upgrades.

Among the motherboard models eligible for BIOS update are: B350ET2, B350GT3, B350GT5, B350GTN, B450GT3, X370GT3, X370GT5, X370GT7, X370GTN, X470GT8, X470GTN, A320MD PRO, A320MH PRO, TA320-BTC, TB350-BTC, A320MY-Q7, A320MH, B45M2, B450MHC, B450MH, and Hi-Fi B350S1. You should be able to find the BIOS updates in the downloads section of the product pages of these motherboards on the BIOSTAR website.

Lenovo has released a trio of new Windows 10 laptops based on new, 2nd generation AMD Ryzen PRO processors, in their famous ThinkPad form factor. There are two models that are part of the T series of ThinkPads, while one is part of X series. For reminding, the T series is the flagship line that offers the best balance between ruggedness, features, processing power, and portability in a 14 or 15-inch unit, while the X series focuses on portability.

The new ThinkPads use the second generation of AMD Ryzen PRO processors, which are 12nm improvements of the previous 14nm Ryzen Family. They carry the 3000 name branding but are similar to the 2000 series of desktop CPUs.

ASRock has announced BIOS updates for AMD X470/B450/X370/B350 and A320 series motherboards to support the soon to be released new AMD Ryzen processors. The latest BIOS update will be available for download from specific product pages on ASRock website or simply update through ASRock APP Shop. The latest BIOS for each motherboard are listed as below. BIOS are expected to be released in May.

We've all taken a look at AMD's March 2019 product roadmap, which showed us the upcoming 2019 tech the company would be bringing to the table in its "non-stop product momentum". However, it seems that this non-stop product momentum might be coming to an unexpected twist of fate that might delay it from entering the last station - the Zen 2-based Threadripper. In the company's latest May earnings call roadmap, the company silently removed the Zen 2 Threadripper from its product roadmap - where it used to sit right after the launch of Zen 2-based Ryzen products for consumers, is now just a big crop of the space it occupied.

This might mean many things, and a mistake on someone's part while cropping the PowerPoint slide could be the only thing going on here. However, the best and most plausible speculation that can be entertained when one considers this is simple - a supply problem. With the 7 nm node being the newest, most dense fabrication process possible, and with AMD having to share TSMC's 7 nm wafer production with a number of high profile companies - such as Qualcomm, for instance - may mean that supply is simply too tight to support Zen 2-based products across so many product stacks - Ryzen and Epyc - at the same time.

As the world becomes more and more centered on data, as well as its processing and storage, increased memory density across products is becoming more of a necessity. It seems that out of this necessity and a need to streamline its memory production towards favoring denser outputs, Samsung is killing of the famous B-die chips, which were - and still are - part of a love affair with any enthusiast's Ryzen desktop.

Memory compatibility issues with the first gen Ryzen took a while to dissipate, and didn't vanish entirely; however, overclockers quickly found that the most stable and overclockable memory ICs all were of the Samsung B-die type. Now, the company has updated its product catalogue to reflect EOL (End of Life) status for B-dies, replacing it with denser M-Die and A-Die products. M-dies were supposed to bring 32 GB densities to a single rank of memory - and have apparently been siphoned off to server applications and left out in the cold for consumer purchase), while the new A dies increase memory density per IC, meaning less of these are necessary to achieve the same final memory footprint. Whether or not these will feature the same Ryzen compatibility and overclockability as their B-die predecessors is unknown at this point, but it would make a lot of enthusiasts slightly unhappy - and increase the value of B-die offerings in any sort of discerning second-hand market - if they did not.

Remember to bring your osmosis process to the table here, as a good deal of salt is detected present in this story's environment. Some online webstores from Vietnam and Turkey have started listing AMD's 3000 series CPUs based on the Zen 2 architecture. The present company stands at a Ryzen 9 3800X, Ryzen 7 3700X, and Ryzen 5 3600X, and the specs on these are... Incredible, to say the least.

The Ryzen 9 3800X is being listed with 32 threads, meaning a base 16-core processor. Clock speeds are being reported as 3.9 GHz base with up to 4.7 GHz Turbo on both a Turkish and Vietnamese etailer's webpages. The Turkish Store then stands alone in listing AMD's Ryzen 7 3700X CPU, which is reported as having 12 cores, 24 threads, and operating at an extremely impressive 4.2 GHz base and 5.0 GHz Boost clocks. Another listing by the same website, in the form of the Ryzen 5 3600X, details the processor as having 8 physical cores and running at 4.0 GHz base and 4.8 Boost clocks.

The headline of this post makes it seem a touch more innocuous than the story may lead to, at least if you believe the rumor mills abound. There has been an ongoing issue with AMD systems using Ryzen CPUs and the HTC Vive wireless adapter (powered by Intel WiGig) to where the systems have frozen or even had a BSOD. HTC acknowledged this as early as Nov, 2018, noting that they have seen this with a subset of Ryzen-based motherboards when the PCIe wireless adapter is installed and running. It took until last week to get a solution of sorts, and unfortunately reports from users indicate this is not a true fix for everyone.

The hotfix update 1.20190410.0 was made available April 25 to attempt to combat this issue, which was garnering a lot of attention in the VR-community on whether there was more Intel could be doing to help AMD customers. This hotfix update is available automatically once an end user with the Vive wireless adapter checks for an update, and HTC acknowledge that they continue to test this, as well as partner with Intel and AMD to help resolve this once and for all. In the meantime, users report mixed success to date, including some we know personally as well, and it remains a thorn in the side of wireless VR to get to the PC successfully.

AMD today announced revenue for the first quarter of 2019 of $1.27 billion, operating income of $38 million, net income of $16 million and diluted
earnings per share of $0.01. On a non-GAAP(*) basis, operating income was $84 million, net income was $62 million and diluted earnings per share was $0.06.

"We delivered solid first quarter results with significant gross margin expansion as Ryzen and EPYC processor and datacenter GPU revenue more than doubled year-over-year," said Dr. Lisa Su, AMD president and CEO. "We look forward to the upcoming launches of our next-generation 7nm PC, gaming
and datacenter products which we expect to drive further market share gains and financial growth."

As we gear up for launch of AMD-s Ryzen 3000 series, details are bound to come up with increasing frequency. One of the latest, regarding AMD's in-house developed X570 chipset, which brings a renewed feature set to the AM4 platform, pertains to its PCIe lanes. AMD has included a grand total of 40 PCIe 4.0 lanes on the chipset, which will be distributed between PCIe uplink, USB 3.1 Gen2, USB 2.0 and SATA, as the spec sheet below (which may not be real) indicates. That's a whole load of bandwidth for the PC platform, not counting those PCIe lanes that are to be provided by the Ryzen CPUs.

It seems AMD will be using PCIe support level as a differentiator factor for its chipsets. The X570 is reported to be the only chipset to feature PCIe 4.0 support, while all other chipsets below it (B550 and so on) will only support PCIe 3.0. These lower-end chipsets should be manufactured by ASMedia.

Here are two of the first high-resolution pictures of the Ryzen 7 2700X 50th Anniversary Edition commemorative processor by AMD. It turns out we were right in guessing that it has special markings on the IHS (integrated heatspreader). Turns out, you get a facsimile of AMD CEO Lisa Su's signature, in addition to the AMD-50 logo above the main Ryzen logo. The box itself sees black replace gray as the primary color, and gold replacing auburn/orange in most places except the main Ryzen logo on the front face. A Wraith Prism RGB cooling solution is included, just like normal 2700X PIB packages. Early listings of the processor pinned its price around USD $340, a premium over the $295 price the Ryzen 7 2700X is typically going for.