Out of the box, the Ryzen 7 3800X offers a better mixture of single- and multi-threaded performance than Intel's competing chips, and support for the PCIe 4.0 interface unlocks the potential of ultimate storage throughput. The impressive power efficiency and performance make for a compelling upgrade, but value-seekers who aren't afraid of minimal tuning should look to the less-expensive Ryzen 7 3700X for similar performance.

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Cranking it up to 105W

AMD's Ryzen 3000 series has landed, upping the ante with Intel in its high-stakes game for desktop PC market dominance with a well-rounded lineup of new chips that push mainstream platforms to higher core counts and more raw compute than we've ever seen. As a result, Intel's commanding presence in the enthusiast space is threatened in a way we haven't seen in over a decade.

We began with a look at the Ryzen 9 3900X and Ryzen 7 3700X last week and came away impressed, but our review left us feeling like something was missing.

That something is the Ryzen 7 3800X. AMD cranks the TDP dial up to 105W on this 8-core 16-thread chip, making it the high-performance counterpart to the 65W Ryzen 7 3700X, which is basically the same 7nm chip built with the Zen 2 microarchitecture, but with a lower TDP rating. That chip came away from our first look at the Ryzen 3000 series with an Editor's Choice award, going toe-to-toe with Intel's Core i7-9700K, so it's fair to say we have high hopes for the higher-performance model. AMD still hasn't sampled the chip to the press, so we bought one at retail to put it under the microscope.

The Ryzen 7 3800X slots in beneath the Ryzen 9 3900X, which comes with two 7nm compute die tied together with a 12nm I/O die to yield a 12-core 24-thread part. AMD has worked wonders to reduce the impact of this sort of multi-chip arrangement, but it's fair to assume that the Ryzen 7 3800X's single-compute-die design, paired with a higher TDP rating that facilitates more aggressive boost clocks, could actually rival the 3900X in some applications – games included.

SEP (USD) Cores / Threads TDP (Watts) Base / Boost Frequency (GHz) L3 Cache (MB) PCIe 4.0 Lanes Ryzen 9 3950X $749 16 / 32 105W 3.5 / 4.7 64 24 Ryzen 9 3900X $499 12 / 24 105W 3.8 / 4.6 64 24 Ryzen 7 3800X $399 8 / 16 105W 3.9 / 4.5 32 24 Ryzen 7 3700X $329 8 / 16 65W 3.6 / 4.4 32 24 Ryzen 5 3600X $249 6 / 12 95W 3.8 / 4.4 32 24 Ryzen 5 3600 $199 6 / 12 65W 3.6 / 4.2 32 24

And that's exactly what we've found. The Ryzen 7 3800X takes the basic ingredients of the Zen 2 microarchitecture, which brings an average of 15% more instructions per cycle (IPC) throughput, and 7nm process and melds them into a high-performance chip that is impressive across our test suite, especially when we factor in the competitive pricing, PCIe 4.0 interface, backward compatibility with most AM4 socket motherboards, unlocked overclocking features, and bundled cooler.

But we've also found that, after simple push-button overclocking, the Ryzen 7 3700X offers similar performance to the 3800X, even when it is also overclocked. But for $70 less. The Ryzen 7 3800X is an impressive chip and offers a better mixture of performance than Intel's Core i7-9700K, no doubt, but in this case, value seekers might opt for its less expensive sibling.

Ryzen 7 3800X

We covered the deep dive details of the Ryzen 3000 chip design in our AMD Ryzen 9 3900X and Ryzen 7 3700X review, so head there for more information on the 3800X's architecture, which is identical to the Ryzen 7 3700X.

The $399 Ryzen 7 3800X lands in the pricing gap between the $488 Core i9-9900K and the $374 Core i7-9700K. Of course, the -9700K slots in as the 3800X's natural competitor, and while it matches the AMD part with eight physical cores, Intel's trimming of the Hyper-Threading feature leaves it eight threads shy of the 3800X.

Process SEP / RCP (USD) Cores / Threads TDP (Watts) Base Frequency (GHz) Total Cache (MB) PCIe Lanes iGPU Price Per Thread Core i9-9900K 14nm $488 8 / 16 95w 3.6 / 5.0 16 16 Gen3 Yes $30.05 Ryzen 7 3800X 7nm $399 8 / 16 105W 3.9 / 4.5 32 24 Gen4 No $24.94 Core i9-9700K 14nm $374 8 / 8 95W 3.6 / 4.9 12 16 Gen3 Yes $46.75 Ryzen 7 2700X 12nm $329 8 / 16 105W 3.7 / 4.3 16 20 Gen3 No $20.56 Ryzen 7 3700X 7nm $329 8 / 16 65W 3.6 / 4.4 32 24 Gen4 No $20.56 Core i7-9700 14nm $323 8 / 8 95W 3.6 / 4.9 12 16 Gen3 Yes $40.38

The -9700K comes with a 95W TDP rating, whereas the 3800X weighs in with a 105W rating. Contrary to popular belief, these ratings aren't meant to quantify power consumption. Instead, they measure the amount of heat the chip dissipates under load, but both companies use different test methodologies. Intel specs TDP at the base frequency, thus ignoring peak heat output during boost activity, while AMD measures with all cores fully loaded. The only way to make real power comparisons is via power measurement, which we'll get to shortly. In either case, we expect that AMD's 7nm design will continue the trend of heightened power efficiency over Intel's 14nm parts. The 3800X also comes with a healthy serving of 32MB of L3 cache, while Intel's -9700K comes with 12MB.

As the higher-priced version of the Ryzen 7 3700X, the 3800X has higher base and Precision Boost frequencies of 3.9 and 4.5 GHz, respectively. That's a 300 MHz increase in base frequency and a 100 MHz bump to boost clocks, but the real advantage should lay in the higher Package Power Tracking (PPT) envelope, which is a measurement of the maximum amount of power delivered to the socket. The 3700X's PPT tops out at 88W, while the motherboard can pump up to 142W to the 3800X at peak performance. That opens up much more aggressive boost behavior, on both single and multiple cores, that could widen the performance gap beyond what we see on the spec sheet.

(Image credit: AMD)

Like the other Ryzen 7 and 9 chips, the 3800X comes with the capable Wraith Prism RGB cooler which is rated to dissipate up to 124W if you crank the fans up to high. Given the 3800X's maximum 142W PPT measurement, that means, at least on paper, that the Wraith Prism might come up a tad shy of dissipating the full heat output of the 3800X at stock settings.

Due to the dynamic nature of AMD's Precision Boost 2 algorithms, the chip will react based upon its environmental conditions, with thermal dissipation being a key variable that dictates performance. That means you could likely get better performance, even at stock settings, with a better cooler. The Wraith also won't provide much overclocking headroom. Consider buying a heftier cooler for overclocking or unleashing the full benefit of Precision Boost Overdrive (AMD's automated overclocking feature). We've flagged this for additional testing once we receive more mature BIOS revisions.

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You can pair the Ryzen 3000 chips with the new X570 chipset to unleash the increased throughput of PCIe 4.0, a feature that Intel doesn't offer, or you can drop the processor into most previous-gen motherboards as a value alternative, but you'll lose PCIe 4.0 support.

DIMM Config Memory Ranks Official Supported Transfer Rate (MT/s) 2 of 2 Single DDR4-3200 2 of 4 DDR4-3200 4 of 4 DDR4-2933 2 of 2 Dual DDR4-3200 2 of 4 DDR4-3200 4 of 4 DDR4-2667

Ryzen 3000 chips support dual-channel DDR4-3200, a step up from the previous-gen's support for DDR4-2966. AMD has greatly improved its memory compatibility and overclocking capabilities, but you still have to abide by rules that dictate the maximum supported frequency based on DIMM type and slot population.

If you don't like those rules, you can simply bump up the voltage and try your hand at overclocking, or buy a higher-rated kit with a one-click A-XMP profile. As we know, the Zen microarchitecture profits heavily from improved memory performance, so higher-priced kits are a good investment that yield dividends, particularly in gaming.

(Image credit: AMD)

AMD has improved memory overclocking substantially, partly due to decoupling the Infinity Fabric from the memory clock. To sidestep the Infinity Fabric's maximum frequency of 2,000 MHz, which effectively constrains memory overclocking, AMD separated the memory and Infinity Fabric clock dependencies. The domains remain tied together at a 1:1 ratio up to DDR4-3600, but run at a 2:1 ratio beyond that transfer rate. This setting, which is also user-adjustable in the BIOS, improves memory bandwidth but comes with a latency penalty (~9ns). AMD says that the price/performance sweet spot lands at DDR4-3600. As per its usual policy, AMD supports up to 128GB of RAM and enables ECC support, but leaves ECC qualification and enablement to motherboard vendors.



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