AMD answered the demands of gamers and re-released the Ryzen 7 5800X3D, though not without compromise. Although the return of Zen 3 X3D has been a good idea for months, given the limited time we saw those chips on the market, this re-release comes with a surprisingly high price, considering the silicon and how it compares to the best CPUs for gaming. Price is the biggest issue for the Ryzen 7 5800X3D. AMD shaved $100 off the original MSRP for the 10th Anniversary Edition re-release, but that puts it in very competitive waters, even considering current RAM prices. The CPU is flanked on one side by the Core i7-14700K that also supports DDR4 memory, and on the other by the Ryzen 5 7600X3D, which offers superior gaming performance and a lower price to offset the cost of a DDR5 platform. The chip mainly appeals to those who already have an AM4 motherboard and memory to go with it, and who were unfortunate enough to miss the small window when you could buy the Ryzen 7 5800X3D a few years ago. In that situation, just about any price is a deal compared to the competition. Otherwise, the Ryzen 7 5800X3D is about $70 to $100 too expensive, and even that lower price would be questionable if DDR5 prices weren’t out of control. Although the chip has earned its legendary status among gamers, revisiting it in 2026 shows clearly that it maxes out what DDR4 platforms are capable of in games, and it falls far too short of the DDR4 competition in applications. The island of AM4 users stranded without a clear upgrade path will love the 5800X3D re-release. But the chip is not nearly as impressive as it once was if you have to buy a motherboard and/or RAM alongside your CPU, however.Some notes on this re-reviewWe don’t normally re-review products here at Tom’s Hardware, much less update existing reviews outside of some extraordinary circumstance. We will follow up reviews with additional coverage as needed, but our reviews are as much buying advice at the time they’re written as they are historical context years down the road. Reviews exist in the context in which they’re written. That’s important because, especially with PC hardware, some good products can become worse over time and bad products can become good over time. Even in this past generation, AMD had several stumbles with Zen 5, which it addressed post-launch through a combination of firmware updates and exposing additional settings in the BIOS. Intel had some major regressions in performance with Arrow Lake, which it partially addressed after release with Core 200S Boost. These products are better now than they were at launch, but it’s still important to know that they had issues at launch. That’s the function of our reviews. They’re a snapshot of how a particular component performs and compares to the rest of the market at a certain point in time. Our list of the best CPUs for gaming and CPU benchmark hierarchy pagesare where you’ll find the consistent updates on which chips are best at any given time. That preamble is to say that this re-review of the Ryzen 7 5800X3D does not replace our original review, which is why this is a separate piece of content and not merely an update. We’re re-reviewing the chip because AMD is re-releasing it, and we need to compare the chip to the current market it exists in. That market includes high memory prices, which is a driving force behind the re-release of the Ryzen 7 5800X3D in the first place. We’re paying especially close attention to memory in this review, both in terms of price and performance. However, we’ve also brought some price-competitive DDR5 chips into the mix, including some of AMD’s own CPUs. Finally, we’re reviewing the original Ryzen 7 5800X3D here. AMD says that the new 10th Anniversary Edition should be identical to the original model, but it’s using a slightly different bonding process, which could have a minor impact on power and thermals, in particular. We’ll be getting a 10th Anniversary Edition into the lab in order to find out, but we don’t expect major performance differences between the original and re-release versions.AMD Ryzen 7 5800X3D specifications and pricingCPU / (MSRP)Street PriceArchitectureCores/Threads (P+E)Cache (L2 + L3)Base/Boost Clock (GHz)TDP / Maximum PowerRyzen 7 5800X3D$350Zen 3 X3D8 / 16100 MB3.4 / 4.5105W / 142WCore Ultra 7 270K Plus$350Arrow Lake Refresh24 / 24 (8+16)76 MB3.7 / 5.5125W / 250WRyzen 5 7600X3D ($300)$246Zen 4 X3D6 / 12102 MB4.1 / 4.765W / 88WRyzen 7 7800X3D ($450)$399Zen 4 X3D8 / 16104 MB4.2 / 5120W / 162WCore i7-14700K ($410)$340Raptor Lake Refresh20 / 28 (8+12)61 MB3.4 / 5.6125W / 253WIt’s difficult to evaluate the specs of the Ryzen 7 5800X3D given the current market, so this is a refresher of what the processor offers and how it compares to some of the current options featured in our test suite. It’s an eight-core / 16-thread chip sporting AMD’s Zen 3 architecture, and it boosts up to 4.5 GHz, with a base clock of 3.4 GHz. The chip is fabricated on TSMC’s 7nm FinFET process, with GlobalFoundries stepping in to fab the I/O die on its 12nm process. Of course, the main draw of the CPU is the 64MB chunk of SRAM that’s bonded to the compute die, giving the processor access to a total of 96MB of L3 cache. In recent years, we’ve seen both AMD and Intel increase cache sizes broadly, not just on X3D CPUs. For instance, the Ryzen 7 9700X has the same 32MB of on-board L3 that we can see all the way back to Zen 3, but it has double the L2 cache. Intel has traditionally split L2 and L3 more evenly, and we’ve seen an increase in both with Arrow Lake and Arrow Lake Refresh. Still, the huge boost in L3 helps a lot here. It comes with some thermal trade-offs, however. Although the Ryzen 7 5800X3D is a very efficient CPU, it also has careful power management. The SRAM sits on top of the compute die, insulating the cores from the IHS. This thermal design means the Ryzen 7 5800X3D has relatively low peak clock speeds out of the box, and it doesn’t officially support AMD’s Precision Boost Overdrive. AMD has addressed that issue in newer X3D chips, riding the efficiency of Zen 4 with the Ryzen 7 7800X3D and moving to a new bonding process that situates the SRAM below the compute die with the Ryzen 7 9800X3D.MORE: Best CPU for gamingMORE: CPU Benchmark HierarchyMORE: Intel vs AMDMORE: How to Overclock a CPUAlthough the Ryzen 7 5800X3D was a revelation when it first released, it’s important to remember that it wasn’t leagues faster than Intel’s competing Alder Lake chips, at least not on the level of the 30%+ delta we see today with Arrow Lake and the Ryzen 7 9800X3D. The pedigree that 3D V-Cache has built comes in part from the newer X3D chips, and that’s clear when looking back at the Ryzen 7 5800X3D. Even more clear is the split between DDR4 and DDR5. Now that we have Raptor Lake (and Refresh) as a comparison point, the Ryzen 7 5800X3D positions itself as the peak of what DDR4 platforms are capable of in games. It’s marginally faster than the Core i7-13700K and Core i7-14700K with DDR4 memory, 17% ahead of the Core i7-12700K with DDR4, and even 4.5% ahead of the Core i7-12700K with DDR5.(Image credit: Tom's Hardware)This wall that you can see, around 145 fps in our geomean, directly translates into a handful of the games we tested. Especially among the newer titles in our suite, simply moving to DDR5 memory results in more than a 31% increase in performance on the same CPU. That led to a handful of situations where both Raptor Lake CPUs perform worse than the Ryzen 7 5800X3D with DDR4, but offer double-digit improvements with DDR5. Based on our RAM price tracker, a 32GB kit of DDR5-6000 runs between $400 and $450 currently, while a 32GB kit of DDR4-3200 will run you between $200 and $250. There are plenty of exceptions, for better and worse, but we’re going to call the price difference between DDR4 and DDR5, right now, about $200. Establishing that number is important because of one CPU: AMD’s own Ryzen 5 7600X3D. It’s on the AM5 platform and requires DDR5, but it’s also $230, $120 less than what AMD is re-releasing the Ryzen 7 5800X3D at. Assuming our lowest RAM prices, that means the Ryzen 5 7600X3D is around 14% more expensive than the Ryzen 7 5800X3D when memory is brought into the price. But the Ryzen 5 7600X3D is also 18% more performant. That’s the biggest hurdle standing in the way of the Ryzen 7 5800X3D. Even if you already have DDR4 memory, the Ryzen 5 7600X3D and 16GB of DDR5-6000 is only around $80 more expensive, and much more performant. Plus, it gets you on an AM5 platform, setting up cheaper future upgrades (AMD says AM5 will receive support through at least 2029). In Intel’s camp, the two Raptor Lake chips with DDR4 run up against a similar wall as the Ryzen 7 5800X3D, but offer around a 15% jump with DDR5. The Ryzen 7 5800X3D still makes sense if you already have an AM4 board. However, if you have to buy a motherboard, the Raptor Lake chips offer similar gaming performance with DDR4 and much better application performance, which we’ll get to next.Tom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareElsewhere, there aren’t a lot of surprises. The Ryzen 7 5800X3D is as efficient as ever, drawing just 77.5W on average in our testing. AMD has pushed efficiency even further now, but it’s remarkable to see the Ryzen 7 5800X3D offering similar performance as the Core i7-14700K with DDR4, while consuming half the power. We also have our value geomean here, which is deceptive. Obviously the price of memory is a huge influence here, not only on total platform cost, but also on performance. The value geomean here just represents a true CPU-to-CPU comparison of value, devoid of RAM context.007 First Light BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareThe first game in our suite is the newest, which is 007 First Light. The Ryzen 7 5800X3D surprisingly struggles in this title, which is strange given how well IO Interactive’s previous title, Hitman 3, took to 3D V-Cache CPUs. Still, the Raptor Lake chips are ahead here, even with DDR4, and they claim top slots with DDR5.Baldur’s Gate 3 BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareBaldur’s Gate 3 favors X3D chips, which is clear based on the fact that the Ryzen 7 5800X3D is just a touch behind the much newer Ryzen 7 9700X. The 5800X3D is also around 11% faster than the Raptor Lake chips with DDR4 memory. However, the Raptor Lake chips with DDR5 are about 20% faster than the Ryzen 7 5800X3D, while the Ryzen 5 7600X3D is around 35% faster. Crimson Desert BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareIn Crimson Desert, the 5800X3D outpaces the Raptor Lake competition by a few frames, but this game clearly favors faster memory. It also scales oddly well on Raptor Lake chips, as evidenced by the fact that the Core i7-14700K outclasses the Core Ultra 7 270K Plus.Counter-Strike 2 BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareCounter-Strike 2 is more competitive, with only the Ryzen 7 7800X3D offering a clear lead above the rest of the pack. The Ryzen 7 5800X3D is marginally ahead of the Raptor Lake chips with DDR4 here, and even moving to DDR5 doesn’t offer a significant improvement.Cyberpunk 2077 BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareCyberpunk 2077 is another clear example of the memory divide that’s growing between DDR4 and DDR5. The Ryzen 7 5800X3D tops the DDR4 rankings by a few frames, but moving to DDR5 on Raptor Lake offers roughly a 15% performance jump.Doom: The Dark Ages BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareWhen we brought up a 31% gap in DDR4 and DDR5 performance earlier, we were referring to Doom: The Dark Ages. This is a fairly recent game that’s clearly designed with DDR5 in mind. The Ryzen 7 5800X3D does surprisingly well, though, offering a 10.8% jump over the Raptor Lake competition with DDR4. F1 24 BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareF1 2024 slants heavily toward AMD processors, and it’s a game that scales well with 3D V-Cache. Here, the Ryzen 7 5800X3D is around 5% faster than the Core i7-14700K with DDR5, and 13% faster with DDR4. The Ryzen 5 7600X3D spoils the fun a bit, though, offering a solid 10% jump over the 5800X3D. Far Cry 6 BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareFinal Fantasy XIV BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareFinal Fantasy XIV scales well with X3D chips, with the three 3D V-Cache CPUs in our test pool topping the rankings. The 5800X3D takes a clear backseat to the DDR5 CPUs, but it still manages a solid 6.6% improvement over the Core i7-14700K with DDR5 and a 16% jump with DDR4.Flight Simulator 2024 BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareFlight Simulator 24 leans back toward Intel, with the 5800X3D only managing to outclass the Core i7-12700K with DDR4. In this game, the Ryzen 5 7600X3D is around 18% faster, while the Core i7-14700K is 11% faster, even with DDR4.Hogwarts Legacy BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareWe can see a similar situation in Hogwarts Legacy, with the Core i7-14700K paired with DDR4 outpacing the Ryzen 7 5800X3D by about 12%. The Ryzen 5 7600X3D, meanwhile, is more than 20% ahead, while the Core i7-14700K with DDR5 marks a 25% lead.Marvel Rivals BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareMarvel Rivals is an Unreal Engine 5 game, and it’s mostly bound by the GPU, which explains the stair-step pattern you can see in our data. We can see a clear divide between DDR4 and DDR5 platforms here, with even the Ryzen 5 7600X offering superior performance. Minecraft RTX BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareIntel struggles in Minecraft, while X3D chips run away with performance. The Ryzen 7 5800X3D ends up in the middle of the pack, offering a clear buff of around 18% over the Raptor Lake competition but falling short of even AMD’s weaker DDR5 options.Spider-Man 2 BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareStarfield BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareThe Last of Us Part One BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareMORE: Best CPU for gamingMORE: CPU Benchmark HierarchyMORE: Intel vs AMDMORE: How to Overclock a CPUThe Ryzen 7 5800X3D was a weak CPU for productivity when it was released, and it hasn’t aged particularly well since then on that front. The clock speed is limited compared to non-X3D Zen 3 chips, and the processor doesn’t officially support AMD’s Precision Boost Overdrive (PBO). Add to that the limitations of DDR4 platforms more broadly in non-gaming applications, and it's clear the 5800X3D was never destined for high marks here.(Image credit: Tom's Hardware)Even compared to the Ryzen 5 7600X3D, the 5800X3D is only 4.6% faster, which is bad considering the latter CPU has access to 33% more threads. Intel’s hybrid architecture boosts core counts, allowing Team Blue to dominate the top of our multithreaded performance rankings. The CPU to call out here is the Core i7-14700K, particularly paired with DDR4 memory. It’s more than twice as fast as the 5800X3D in our multithreaded geomean, while offering similar gaming performance. Again, we can see this dilemma for the 5800X3D, where the 14700K is a better all-around CPU with DDR4, while the Ryzen 5 7600X3D is a superior DDR5 CPU for not much more money (even considering the price of DDR5). (Image credit: Tom's Hardware)Turning to single-threaded performance, the playing field levels out, short of the 5800X3D, which even loses out to the Ryzen 7 5700X due to its limited clock speed (the 5700X boosts 100 MHz higher and supports PBO).Rendering BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareRendering apps factor heavily in our overall multithreaded geomean, so the individual results here largely mirror what you can see in the geomean above. In Cinebench 2024, the Core i7-14700K with DDR4 still offers more than double the performance of the Ryzen 7 5800X3D, and it pushes higher with DDR5. We can see a similar situation in the newer Cinebench 2026. Single-core results are especially weak considering the Ryzen 7 5800X3D’s limited boost potential. DDR5 isn’t much of a factor here. Although we can see some scaling on the Raptor Lake platforms when moving to DDR5, the Ryzen 7 5800X3D is limited in rendering apps, even by DDR4 standards. Blender shows similar disparities, with the six-core Ryzen 5 7600X3D largely matching the Ryzen 7 5800X3D, despite sporting a 33% reduction in thread count. The Ryzen 7 5800X3D is a gaming CPU, pure and simple, so we never expected any miracles here. However, the Ryzen 5 7600X3D is offering comparable performance on a DDR5 platform for less money, while shooting ahead in games. And the Core i7-14700K offers much better productivity performance and comparable gaming performance, even when paired with DDR4.Encoding BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareEncoding is similarly a major factor in our geomean, though with a more even split between lightly- and heavily-threaded workloads. Starting with the latter, Handbrake is an all-out workload for any consumer CPU that leans on high core counts, power limits, and clock speeds. With an x265 10-bit encode, even the Core i7-12700K with DDR4 is 39% ahead of the 5800X3D, while the Core i7-14700K with DDR4 shoots ahead, scoring 82% lead. AV1 and X264 show similar gaps. The LAME audio encoder provides a closer look at single-threaded encoding workloads, and once again, the Ryzen 7 5800X3D struggles. It was the worst performer in the test pool running a standard LAME encode, and the gap between it and the more performant options in our test pool only grows in the extended run. Creator App BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwarePerhaps the biggest area of crosstalk with gaming is creator applications. The Ryzen 7 5800X3D is a bit more impressive here compared to our rendering and encoding workloads, often matching the Core i7-12700K with DDR4 memory. Still, it ends up at the bottom of our rankings, with newer Raptor Lake and DDR5 CPUs offering better performance. Photoshop is an app that leans toward AMD chips, though that’s mainly with newer Zen 5 chips. For the 5800X3D, the Core i7-14700K offers a 10% performance jump with DDR4. Things are a bit more competitive in Premiere Pro, with the limitation of DDR4 platforms becoming abundantly clear in our data. Outside of the Adobe suite, we have DaVinci Resolve, which isn’t as lopsided as Photoshop with recent AMD CPUs. Here, even DDR4 Raptor Lake options are near the top of the chart. The 5800X3D secures a minor win over the 7600X3D and 5700X, but not by a meaningful margin. Finally, After Effects offers a look at VFX performance. AMD’s 5800X3D especially struggles here, with the Core i7-12700K with DDR4 offering a 13% boost in overall performance. With DDR5, that lead jumps to 22.9%.Web and Office BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareIn lighter web and office workloads, the Ryzen 7 5800X3D still struggles. Most basic productivity and web applications are lightly-threaded, so it makes sense to see the 5800X3D would fall below the marks we can see in creator apps. Across all of the workloads here, the 5800X3D is either at the bottom of the pile or just narrowly outclasses the 5700X. That doesn’t mean you’ll run into major performance issues. The workloads here are relatively light, and they’re suitable for far weaker CPUs than the Ryzen 7 5800X3D. We’re mainly looking at general application performance for browsers and lightly-threaded apps here, which is an area where the 5800X3D struggles. Chess Engines, Compilation, Compression, AVX, and Other BenchmarksTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareFinally, we have a range of benchmarks examining code compilation, chess engines, database workloads, and far more. The 5800X3D is a gaming CPU, and these workloads are highly targeted at specific applications. There are some workloads where the 5800X3D shines, such as the ebizzy web server test, SQLite database test, and Linpack. However, it mostly lands at the bottom of the pile when looking at workloads more broadly. We’ve certainly seen a benefit from a larger L3 cache for specialized workloads (see our Ryzen 9 9950X3D2 review for more), but that’s not the draw here. The Ryzen 7 5800X3D is weak in most productivity apps, so unless you plan on running a server and somehow gaming on the same machine, I wouldn’t weigh these results too heavily. MORE: Best CPU for gamingMORE: CPU Benchmark HierarchyMORE: Intel vs AMDMORE: How to Overclock a CPUAMD’s X3D CPUs are known for their efficiency, and although those efficiency gains mainly show up with the Ryzen 7 7800X3D, the 5800X3D is no slouch. Power is carefully limited on the chip, with it peaking at just 119W in our y-cruncher test. In the same test, the Core i7-14700K drew 335W.Tom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareTom's HardwareY-cruncher leverages AVX instructions, pushing the Ryzen 7 5800X3D to consume more power compared to the 7800X3D. In an all-out, non-AVX workload like Cinebench 2024, the two CPUs are in lockstep. Again, we can see the Raptor Lake competition dancing with 300W across configurations. Blender and Handbrake tell a similar story, but efficiency is what’s important here, given how broad the performance window is for the chips in our test pool (particularly in applications). The 5800X3D is much more efficient than the 13700K and 14700K. The margins are also narrower than raw power consumption.Tom's HardwareTom's HardwareTom's HardwareTom's HardwareThe efficiency picture is clearer with a scatterplot, where we can see a clear separation between the AMD and Intel chips in our test pool. Short of the Core Ultra 270K Plus, there’s a compromise. AMD’s options are much less performant but consume far less power, while Intel's options are generally the opposite. One upside of the 5800X3D, in particular, is its low idle power consumption. With Zen 4 and Zen 5, we saw a massive increase in power consumption in both idle and active idle (YouTube playback) scenarios. With both the Zen 3 chips in our test pool, we can see a return to single-digit power draw under idle circumstances. Test SetupWe try to minimize the differences between our test platforms to keep our results consistent, which is especially important here given that we used so many different platforms. Even with big differences, we used the same OS image that’s specifically tailored for testing and frozen to avoid updates skewing our results as we test. In addition to standardising our OS, we standardise our BIOS settings. We test with XMP/EXPO enabled on memory kits that we’ve validated for stability on the platforms we use. We also disable VBS in the BIOS and turn on ReBAR. Modern AMD and Intel CPUs come with sophisticated boosting algorithms, but they aren’t always covered by warranty. AMD doesn’t cover PBO, for instance, and Intel doesn’t warranty the “Extreme” power profile that’s common on motherboards. Because of the lack of warranty coverage, we test with PBO disabled and Intel’s power profile set at its default settings. Intel LGA 1851 (Arrow Lake and Refresh)MotherboardASRock Z890 TaichiRAM2x16GB G.Skill Trident Z Neo RGB DDR5-7200Intel LGA 1700 (Raptor Lake, Alder Lake)MotherboardMSI MPG Z790 Carbon Wi-FiRAM 2x16GB G.Skill Trident Z Neo RGB DDR5-7200Intel LGA 1700 DDR4 (Raptor Lake, Alder Lake)MotherboardMSI MPG Z690 Edge Wi-Fi DDR4RAM 4x8GB G.Skill Trident Z RGB DDR4-3200AMD AM5 (Zen 5, Zen 4)MotherboardMSI MPG X870E Carbon Wi-Fi, Gigabyte Aorus X870E Elite X3D ICERAM2x16GB G.Skill Trident Z Neo RGB DDR5-6000AMD AM4 (Zen 3)MotherboardAsus Tuf Gaming X570-Pro Wi-FiRAM4x8GB G.Skill Trident Z RGB DDR4-3200All SystemsGaming CPUNvidia GeForce RTX 5090 Founder’s EditionApplication GPUNvidia GeForce RTX 2080 Ti Founder’s EditionCoolerCorsair iCue Link H150i RGBStorage2TB Sabrent Rocket 4 PlusPSUMSI MPG A1000GS, Gigabyte UD1000GM PG5 V2OtherArctic MX-4 TIM, Windows 11 Pro, Alamengda open test benchMORE: Best CPU for gamingMORE: CPU Benchmark HierarchyMORE: Intel vs AMDMORE: How to Overclock a CPU(Image credit: Tom's Hardware)At $350, the Ryzen 7 5800X3D really only makes sense if you already have an AM4 motherboard and DDR4 memory to go along with it. That’s not a small audience, especially considering the relatively short time the original Ryzen 7 5800X3D was available on the market. But if you need to buy a motherboard and/or memory for your upgrade, there are better options at this price. The 5800X3D re-release is a victim of poor pricing. The chip taps out DDR4 platforms in gaming performance, but we’re closing in on half a decade with mainstream DDR5 platforms, and we’ve seen much more powerful CPUs in that time. And yet, the Ryzen 7 5800X3D’s price hasn’t moved significantly away from its original $450 MSRP. If RAM prices weren’t out of control, a $350 price tag on the Ryzen 7 5800X3D would look insane given the current options around that price. As I’m writing this, the Ryzen 7 7800X3D is on sale for less than $350. And even considering current RAM prices, the Core i7-14700K and Ryzen 5 7600X3D are compelling alternatives. On the productivity front, the Core i7-14700K is a clear winner, even with DDR4 memory. There are some titles where the Ryzen 7 5800X3D is faster than the Core i7-14700K is when paired with DDR4. But overall, they offer similar gaming performance. Especially now that AMD has turned its attention to AM5, the Core i7-14700K is a better all-around option if you don’t already have an AM4 motherboard. Although AMD almost always comes out on top with platform longevity, Intel is surprisingly ahead in that regard in the Ryzen 7 5800X3D versus Core i7-14700K matchup. Intel is reportedly set to launch Raptor Lake Next on the LGA 1700 socket next year, though I suspect any performance benefits that come along with it will require an upgrade to DDR5. On the gaming front, the Ryzen 5 7600X3D does a lot of work. It requires DDR5, but that’s partially offset by the fact that it’s $120 cheaper than the 5800X3D. Factoring in RAM or not, spending a bit more on the Ryzen 5 7600X3D not only nets you much higher performance in games, it also gives you an AM5 platform that you can easily upgrade in the future. That doesn’t discredit the island that AM4 users are currently on. The Ryzen 7 5800X3D left the market fairly quickly, and given the popularity of AM4, it stands to reason that there’s a large group of people for whom the 5800X3D is a significant upgrade. For that group, it’s the CPU of legend you’ve heard so much about. But if you’re planning on buying a motherboard and/or RAM with your new CPU, shop around a bit more. MORE: Best CPU for gamingMORE: CPU Benchmark HierarchyMORE: Intel vs AMDMORE: How to Overclock a CPU