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Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D faceoff — Battle for the fastest mid-range gaming CPU
Kunal Khullar, Jake Roach · 2026-05-16 · via Latest from Tom's Hardware in Cpus
Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D
(Image credit: Amazon)

Intel’s newly launched Arrow Lake Refresh (Core Ultra 200S Plus) desktop CPUs finally deliver what was originally expected from Arrow Lake. While the first generation struggled to impress, the refreshed lineup brings meaningful improvements in performance at an excellent value. As a result, these new chips are far easier to recommend, especially for users looking to build a capable mid-range PC without overspending on the CPU.

That brings us to this particular face-off between the Intel Core Ultra 5 250K Plus and the AMD Ryzen 5 7600X3D. Both processors target gamers and mainstream users looking for a balance of price and performance. In our in-depth review, we found the 250K Plus particularly impressive and worthy of being a part of the best CPUs for gaming. The 7600X3D, on the other hand, holds its own with its proven 3D V-Cache technology to sustain higher gaming performance.

In this comparison, we break down how the two stack up across our six-round gauntlet to see which one truly offers the better value.

Features and Specifications: Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D

Swipe to scroll horizontally

CPU

Street (MSRP)

Arch

Cores / Threads (P+E)

P-Core Base / Boost Clock (GHz)

Cache (L2/L3)

TDP / PBP or MTP

Memory

Intel Core Ultra 5 250K Plus

$200-$220 ($199)

Arrow Lake TSMC N3B (3nm)

18 / 18 (6+12)

4.2 / 5.3

60MB (30+30)

125W / 159W

DDR5-7200 MT/s

AMD Ryzen 5 7600X3D

$200-$230 ($299.99)

Zen 4 TSMC (5nm)

6 / 12

4.1 / 4.7

102MB (6+96)

65W / 88W

DDR5-5200 MT/s

Let’s begin by comparing some of the key specifications to get a better understanding of how these two chips stack up against each other.

The Core Ultra 5 250K Plus is based on Intel’s Arrow Lake architecture built on TSMC’s 3nm node, similar to the (non-Plus) Core Ultra 200S desktop CPUs. The hybrid core architecture includes a total of 18 cores split into six performance cores, 12 efficiency cores, and 18 threads. The Ryzen 5 7600X3D is built around AMD’s Zen 4 architecture paired with stacked 3D V-Cache on a 5nm process and sticks to a traditional layout with six cores and 12 threads.

Coming to the clock speeds, Intel pushes higher peak frequencies. The 250K Plus boosts up to 5.3 GHz on its P-cores and 4.6 GHz on E-cores. The 7600X3D is far more conservative offering up to 4.7 GHz boost clock speeds. That said, the AMD chip compensates for lower frequencies with its massive cache pool of 102MB (96MB L3 cache + 6MB L2 cache) versus Intel’s 60MB combined L2 and L3 cache.

Having higher cache gives the 7600X3D an advantage in gaming workloads, where the reduced memory latency leads to improved frame consistency. However, the higher core count on the Intel chip makes it more suitable for multi-threaded workloads which was also evident in our productivity tests. More on that later.

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Power and efficiency are key points of distinction between the two CPUs where the 7600X3D is a better choice (at least on paper) as it operates at a lower 65W TDP (88W PPT). The 250K Plus draws more power with a rated 125W base power and 159W maximum turbo power. On the flip side, Intel offers support for faster DDR5 memory speeds, officially rated up to DDR5-7200, compared to DDR5-5200 on AMD’s chip.

⭐Winner: Intel Core Ultra 5 250K Plus

Picking a clear winner isn’t entirely straightforward here simply due to the differences in architecture. However, the 250K Plus seems to be a better choice on paper, offering more cores and threads, higher clock speeds, and support for faster memory than the 7600X3D. While AMD’s larger cache does provide an advantage in certain gaming scenarios, it isn’t enough to offset Intel’s stronger all-round performance. As a result, we picked the 250K Plus as the winner for this round.

Gaming Benchmarks and Performance: Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D

Gaming remains one of the most important battlegrounds for mainstream desktop CPUs. Both chips have completely different priorities where Intel relies on higher clock speeds and architectural improvements, while AMD leverages its 3D V-Cache technology to maximize gaming throughput.

To have a proper understanding of how they handle gaming performance, we tested both processors across 17 games at 1080p using high and ultra settings. An Nvidia GeForce RTX 5090 was used for our testing to eliminate any potential GPU bottlenecks and ensure the results accurately represent CPU-limited gaming performance.

Image 1 of 23

Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D gaming benchmarks
(Image credit: Future)

Looking at our 17 game 1080p performance geomean, the 250K Plus delivers an average of 153.5 FPS, which puts it roughly 10% behind the 7600X3D at 168.8 FPS. This is largely thanks to AMD’s 3D V-Cache design that continues to excel in gaming workloads by reducing latency. That said, Intel’s result is still notably competitive, especially if we consider the 1% lows where the gap reduces to 4.6%. The Ryzen 5 7600X3D clearly has an edge, thus making it the more suitable choice for buyers focused purely on maximizing gaming performance.

Now let’s take a look at how the chips perform in individual games. The 7600X3D maintains a lead in a majority of the games that we tested thanks to its dominance in cache-sensitive titles. In Minecraft RT, Final Fantasy XIV, and F1 2024 the X3D processor gains a sizable lead of 75.8%, 43.4%, and 35.9%, respectively. The 7600X3D also manages to stay ahead in Baldur’s Gate 3, Hitman 3, Counter-Strike 2, and Far Cry 6, giving the 7600X3D the stronger overall FPS average across the full gaming suite.

The 250K Plus stays competitive and even manages some noteworthy wins in newer AAA games. Doom: The Dark Ages favored the Intel chip by 5.1%, while Hogwarts Legacy was its biggest gain at 6.7%. That's one of the titles that benefits from iBOT, which is a performance-boosting feature available to the Core Ultra 5 250K Plus in select games.

Titles including The Last of Us Part I, Monster Hunter Wilds, Flight Simulator 2024, and Oblivion Remastered also leaned toward the 250K Plus but with much smaller margins.

Outside raw FPS numbers, the 250K Plus posted the highest average gaming clocks in the comparison at 5,340 MHz, and well ahead of the Ryzen 5 7600X3D at 4,710 MHz. The lower clocks on the 7600X3D are primarily due to the voltage and thermal limits surrounding the stacked cache design. Despite leading in gaming performance, the 7600X3D consumed only 65.3W on average during our game tests, which is substantially lower than the 250K Plus at 82.3W.

This efficiency is clearly visible in the FPS-per-watt chart as well. The 7600X3D delivered 2.58 FPS/W compared to 1.87 FPS/W for the 250K Plus, giving AMD roughly a 38% efficiency advantage. As for thermals, things take a complete turn in Intel’s favor, with the 250K Plus averaging just 48°C during gaming, making it one of the coolest-running chips on the chart and notably cooler than the 7600X3D at 64°C. Intel’s lower temperatures suggest the chip is much easier to cool during gaming workloads despite its higher power draw.

Finally, the value analysis once again swings in favor of AMD as the 7600X3D tops the FPS-per-dollar chart with a value score of 0.84, narrowly ahead of the Core Ultra 5 250K Plus at 0.77 FPS/$.

Winner: AMD Ryzen 5 7600X3D

While Intel delivers strong overall value with balanced gaming performance, lower average temperatures, and competitive pricing, AMD’s superior gaming performance and efficiency ultimately helps the 7600X3D retain the better overall gaming value proposition.

Productivity Benchmarks and Performance: Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D

AMD’s X3D processors have proven to be the best gaming CPUs on the market, and although they offer respectable productivity performance, their limited core and thread counts can hold them back. Intel, on the other hand, has consistently maintained an edge in productivity workloads, and the same trend continues here. The 250K Plus packs significantly more cores and threads as well as a higher boost clock speed than the Ryzen 5 7600X3D. To see how both chips perform in real-world applications, we tested them across a wide range of multithreaded and single-threaded benchmarks.

Image 1 of 15

Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D multi-threaded benchmarks
(Image credit: Future)

The 250K Plus completely dominates the 7600X3D as it scores 465 points, a massive 114% lead, compared to just 217 on the 7600X3D in the overall multithreaded geomean. This advantage is visible in almost every test that we carried out. Starting with Cinebench, the 250K Plus scores 1,860 points in Cinebench 2024 and 7,523 points in Cinebench 2026, outperforming the 7600X3D by roughly 126% and 123%, respectively.

In rendering workloads including POV-Ray multi-core, the 250K Plus delivers 11,642 points compared to 4,600 on AMD’s chip, which is a staggering 153% advantage. Blender results tell a similar story, with the Intel processor more than doubling the performance of the 7600X3D. The 250K Plus scores 133 vs 63 in Junkshop, 193 vs 91 in Monster, and 97 vs 47 in Classroom, giving Intel leads ranging from 106% to 112%.

Ray tracing and video encoding workloads also favor Intel with the 250K Plus scoring 32,655 points in V-Ray 6 versus 15,165 on the 7600X3D. Corona Renderer shows a smaller but a substantial 80% lead for Intel while in Handbrake encoding tests, the 250K Plus nearly doubles performance once again, delivering 24.1 FPS in the x265 encode test versus 12.3 FPS on the Ryzen chip.

The only workload where the 7600X3D remains competitive is RAW image decoding, where both chips are effectively tied at 14.04 and 14.03. However, Intel regains its advantage in JPEG-XL image processing, outperforming the 7600X3D by nearly 87% in multithreaded image encoding and roughly 49% in decoding workloads.

Image 1 of 7

Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D single-threaded benchmarks
(Image credit: Future)

In single-threaded performance, the 250K Plus once again glides ahead, though the margins are much smaller compared to the multi-threaded results. If we look at the single-threaded geomean chart, the 250K Plus scores 261 points versus 204 on the 7600X3D, giving Intel roughly a 28% lead overall.

Cinebench once again highlights Intel’s advantage, with the 250K Plus scoring 139.6 points in Cinebench 2024 single-core and 579 points in Cinebench 2026 single-core. These results place the chip approximately 29% to 33% ahead of the 7600X3D. POV-Ray single-core widens the gap even further, with Intel posting 1,093 points compared to 649 on AMD’s processor, which is a massive 68% lead.

In audio encoding benchmarks the 250K Plus completes the 250MB LAME encode test in 9.56 seconds versus 10.91 seconds on the Ryzen processor, while the larger 1.5GB encode workload finishes roughly 16% faster on the Intel CPU. JPEG-XL single-threaded image encoding is one of the few workloads where the gap narrows considerably, with Intel holding only a minor 3.4% lead.

⭐Winner: Intel Core Ultra 5 250K Plus

Thanks to its higher core count, there’s no doubt that the 250K Plus is a productivity workhorse as it consistently delivers far superior performance in both multithreaded and single-threaded benchmarks. For users primarily focused on productivity, content creation, or mixed-use workloads, the 250K Plus is clearly the stronger and more versatile processor.

Overclocking: Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D

AMD’s Zen 4 processors with 3D V-Cache come with a locked core multiplier meaning traditional frequency overclocking is largely off the table. The same applies to the 7600X3D where the processor tops out around its factory-rated 4.7 GHz boost clock in most scenarios. Instead of pushing raw frequencies, AMD recommends optimization through Precision Boost Overdrive 2 (PBO2) and Curve Optimizer. Applying a negative Curve Optimizer offset allows the CPU to operate at lower voltages, thereby reducing temperatures, and helping the chip sustain higher boost clocks more consistently under load.

The 250K Plus offers a far more granular overclocking experience thanks to its fully unlocked multiplier and frequency headroom. Based on Intel’s Arrow Lake architecture, the chip offers the latest overclocking features including the ability to tune the CPU on a per-core basis along with fine tuning voltage and power limits. The 250K Plus also allows tweaking of the NGU (ring/cache) and D2D (die-to-die) multipliers. These uncore adjustments can be beneficial when paired with high-speed DDR5 memory overclocking.

Speaking of which, memory tuning is another strong point for the platform, with official support for DDR5-7200 and additional headroom available through manual overclocking. Users can carry out most tuning either directly through the motherboard BIOS or via Intel’s Extreme Tuning Utility (XTU), which provides real-time monitoring and adjustment tools within Windows.

⭐Winner: Intel Core Ultra 5 250K Plus

The 250K Plus is a clear winner when it comes to overclocking and tuning features. Intel offers far more room to experiment with core frequencies combined with Intel’s XTU support and broader manual controls, which makes the 250K Plus a far more appealing option for enthusiasts and overclockers. The locked multiplier and onboard 3D V-Cache on the 7600X3D restricts traditional overclocking, leaving users to rely solely on PBO for incremental gains.

Power Consumption and Efficiency: Intel Core Ultra 250K Plus vs AMD Ryzen 5 7600X3D

The two chips differ vastly in terms of power consumption and efficiency, thus, it is important to evaluate how they behave in real-world usage. With a modest 65W TDP and an 88W PPT limit, the 7600X3D is rated to draw considerably less power compared to Intel’s much higher 125W base power and 159W turbo boost. While the higher limit allows the Intel chip to deliver stronger multithreaded performance, it also comes at the cost of significantly higher power consumption across every workload.

Image 1 of 17

Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D power and efficiency graphs
(Image credit: Future)

Starting with low-power states, the 7600X3D consumes 25W while idling compared to 30W on the 250K Plus, giving AMD a 20% advantage in idle power consumption. The gap widens further during active idle workloads, where the 7600X3D draws 28W versus 37W on Intel’s chip, which is roughly 32% lower power usage.

Under heavy computational workloads, Intel’s high-performance approach becomes immediately evident. In the y-cruncher multithreaded test with AVX, the 250K Plus pulls a massive 179W compared to just 73W on the 7600X3D which is roughly 145% higher power consumption. Notably, the Ryzen 5 7600X supports AVX-512 instructions while the Core Ultra 5 250K Plus does not.

The same trend appears in Linpack, where Intel draws 146W while AMD remains at only 65W, giving the Ryzen chip a substantial efficiency advantage. Even in single-threaded AVX workloads, where overall power requirements are much lower, the 7600X3D still consumes 39W compared to 49W on the Intel processor.

In Cinebench 2024 multi-core render test, the 7600X3D averages 74W while the 250K Plus reaches 171W, which is a massive 131% higher power draw by the Intel chip. Blender workloads also show a similar pattern, with the Intel chip consuming between 104% and 119% more power depending on the scene.

Video encoding workloads also showcase the difference in power between the two chips. In Handbrake x265 10-bit encoding, the 250K Plus consumes 159W compared to just 70W on the 7600X3D, which is about 127% more efficient. Similar trends appear in VP9, x264, and SVT-AV1 workloads, where the 250K Plus consistently draws between 90% to 132% more power than the 7600X3D.

In Linpack efficiency testing, the 7600X3D achieves 10.1 GFLOPs per watt-hour compared to 8.2 on the Core Ultra 5 250K Plus, giving AMD roughly a 23% advantage in computational efficiency. Cinebench 2024 watts-per-point results are much closer, with the AMD chip holding a slim 1.8% lead. Handbrake x265 efficiency also narrows the gap considerably, though AMD still maintains the better overall balance between performance and power consumption.

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Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D task energy scatter plot graphs
(Image credit: Future)

We have also included the scatter plots to get a better understanding of efficiency. These charts basically compare performance against total task energy, with the bottom-right corner representing higher performance with lower power consumption.

In the Linpack power efficiency scatter plot, the 250K Plus sits farther to the right representing a massive lead in raw compute performance. However, the Intel chip also lands slightly lower on the chart. The 7600X3D consumes relatively little power, but it also trails well behind in compute-heavy workloads.

The difference becomes more balanced in the HandBrake x265 efficiency chart where the 250K Plus again pushes much farther to the right with noticeably higher encoding throughput. But it also sits slightly higher than the Ryzen 5 7600X3D, meaning it requires more total energy to complete the workload. Meanwhile, the AMD chip lands lower on the chart with lower energy usage, although its encoding performance remains considerably behind Intel’s offering.

In the Blender Classroom scatter plot, the 250K Plus has a far more performance-oriented position with substantially higher samples per minute, but it also consumes more energy in the process. The 7600X3D remains much lower on the power scale while delivering significantly lower rendering throughput.

Winner: AMD Ryzen 5 7600X3D

The Ryzen 5 7600X3D wins the power consumption and efficiency round. While the 250K Plus delivers substantially higher productivity performance, it requires dramatically more power to do so. AMD’s X3D processor consistently maintains lower power draw across idle, gaming, and heavy productivity workloads while still delivering respectable overall performance, making it the more efficient option for most users.

Pricing: Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D

Intel’s Core Ultra 5 250K Plus launched at an aggressive MSRP of $199 and is currently available from various retailers for around $200–$220. As for the Ryzen 5 7600X3D, AMD originally launched the CPU as a Micro Center exclusive almost two years ago at a recommended price of $299.99. Since then the CPU has seen a drop in price and can now also be purchased from Amazon for around $230.

This essentially puts both chips in the same price bracket, with Intel holding a slight edge in upfront cost. That said, the real-world value of either processor goes beyond just the CPU price, as the total platform cost varies depending on the rest of the components. Motherboard compatibility, memory pricing, and even cooling requirements can vastly affect the entire budget.

The 250K Plus is compatible with the LGA 1851 socket, meaning you’ll need an Intel 800-series motherboard. Since it is an unlocked chip, a Z890 motherboard is recommended to take advantage of features like CPU overclocking, higher PCIe bandwidth, and high-end I/O connectivity. Prices typically start around $150–$160, with premium models going beyond $250. For gamers and mainstream users, a B860 motherboard should be sufficient, as it supports memory overclocking along with adequate PCIe bandwidth, though no CPU overclocking. These boards are currently available around $130-$140.

As for the 7600X3D, it uses AMD’s AM5 socket, meaning both 600-series and 800-series motherboards are compatible, though the former may require a BIOS update. While both generations support overclocking, the 7600X3D cannot be manually overclocked as it is a locked chip. For most users, a B-series motherboard like B650 or newer B850 is a good choice, with prices typically starting around $150–$170, offering a good balance of features and affordability. If you’re looking for more premium features such as better I/O, stronger VRMs, and PCIe Gen 5 across more lanes, X-series boards like X670 or X870 start at roughly $180–$200, with high-end models going significantly higher.

As for cooling requirements, the 7600X3D is not a toasty CPU thanks to its lower power draw. A quality air-cooler ($30-$80) or even an entry-level 240mm AIO should suffice. As for the 250K Plus, it draws significantly higher power, but it surprisingly had lower average temperatures during gaming workloads. If you are planning to just use your system for gaming, a reliable air-cooler should do the trick, although it is recommended to go for a more robust solution if you plan on pushing the limits of the 250K Plus with heavy productivity workloads.

Both platforms rely on DDR5 RAM and pricing is a major factor at the moment. Thanks to ongoing demands from AI and data centers, pricing for consumer-grade memory has been at an all-time high. A typical 32GB (2x16GB) DDR5 kit is currently available for around $300 to $400, with even entry-level options rarely dropping below $300 in many cases. This effectively cancels out any meaningful price advantage for either of the two CPUs.

Another crucial factor to consider is that the AM5 platform will be supported for a longer period when compared to Intel’s LGA 1851. AMD has confirmed that it will continue with the platform up until 2027. There has been no such commitment from Intel yet, which essentially means that Arrow Lake Refresh is going to be the last generation supported by the current-gen Intel 800 series (LGA 1851) motherboards.

Winner: AMD Ryzen 5 7600X3D

Although the 250K Plus holds a minor advantage in upfront CPU pricing, the 7600X3D offers a stronger long-term value thanks to the AM5 platform’s extended support. The Ryzen chip also benefits from lower power draw and easier cooling requirements, helping reduce overall system costs. Intel’s platform remains attractive for users interested in overclocking and productivity-focused builds, but for most mainstream gamers, the 7600X3D ends up being the more practical overall investment.

Bottom Line: Intel Core Ultra 5 250K Plus vs AMD Ryzen 5 7600X3D

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Power Consumption, Efficiency, and Cooling

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After six rounds, the comparison ends in a 3-3 tie between the Intel Core Ultra 5 250K Plus and the AMD Ryzen 5 7600X3D. Intel offers overall a stronger spec-sheet and leads when it comes to productivity performance, and overclocking flexibility. While AMD secures wins in gaming performance, power efficiency, and overall platform value. Both processors prove to be highly competitive options in the mid-range desktop segment and achieve their strengths in different ways.

The Ryzen 5 7600X3D is clearly the better choice for gamers thanks to its 3D V-Cache offering a larger cache pool which allows the chip to deliver higher average FPS and respectable efficiency. While it isn’t as powerful in productivity workloads, it is overall more power efficient. Additionally, the AM5 platform offers better long-term value thanks to AMD’s continued socket support, making the 7600X3D a safer investment for users planning future upgrades.

The Core Ultra 5 250K Plus primarily stands out as a strong productivity-focused CPU. It offers significantly higher core count and stronger multi-threaded performance making it far better suited for heavy multitasking workloads. The Intel chip also offers a more robust overclocking experience with unlocked multipliers, granular tuning controls, and support for faster DDR5 memory. In the end, neither CPU is objectively better and the right choice simply comes down to whether your priority is maximum gaming performance or superior all-round productivity.

Winner: Tie

If you had to choose one, we'd recommend the Core Ultra 5 250K Plus to most people. Assuming you have mixed usage, the 250K Plus comes close to the gaming prowess of the Ryzen 5 7600X3D while offering far superior application performance. However, if your sole focus is gaming, the Ryzen 5 7600X3D tops the charts in this price bracket, and it gives you a solid foundation for a platform you can upgrade in the future.

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Kunal Khullar is a contributing writer at Tom’s Hardware.  He is a long time technology journalist and reviewer specializing in PC components and peripherals, and welcomes any and every question around building a PC.

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