Our CPU benchmarks efficiency hierarchy ranks all the present and former era Intel and AMD processors, together with all the Finest CPUs for Gaming, primarily based on efficiency. Your CPU has an enormous impact on total efficiency and, to many, is a pc’s most essential element. CPU benchmarks assist us type out the variations, however when it comes time to purchase a CPU on your desktop, you will discover a dizzying assortment of mannequin numbers and specs from each Intel and AMD.
We have listed the greatest CPUs for gaming and greatest processors for workstations in different articles, however if you wish to know the way every chip stacks up towards all of the others and the way we come to our choices, this CPU benchmarks hierarchy is for you. For those who’re in search of a broader view of the present state of the market, head to our AMD vs Intel function.
For those who’re in search of the quickest gaming chip available on the market throughout the broadest vary of costs, Intel’s Alder Lake chips have taken the crown from AMD in convincing vogue, although AMD’s newest chip is an outlier that holds the general efficiency crown attributable to transformative new know-how. AMD’s Ryzen 7 5800X3D takes the title because the quickest gaming CPU available on the market and lives as much as AMD’s declare that 3D V-Cache delivers a rise in gaming efficiency equal to what we’d usually solely see from a brand new microarchitecture. Nevertheless, the 58000X3D is not as quick as comparable chips in different kinds of single- and multi-threaded work past gaming.
Intel’s Particular Version Core i9-12900KS was the quickest gaming CPU available on the market till AMD’s Ryzen 7 5800X3D arrived. This chip is equivalent to the Core i9-12900K however has particular binning and options that enable it to succeed in a blistering 5.5 GHz on two cores, a file excessive clock pace for a desktop PC processor. The 12900KS remains to be sooner than its counterpart, the 12900K, however it solely leads by roughly 3% but comes with a 23% ($134) premium. That makes the $739 price ticket a tough capsule to swallow.
We just lately put AMD’s $199 Ryzen 5 5600 and $159 Ryzen 5 5500 chips to the take a look at. These new lower-end fashions symbolize AMD’s least expensive Zen 3-equipped processors but, however they’re just too little, too late. The Ryzen 7 5700X, additionally included within the stats under, can be not a convincing purchase. Intel’s Alder Lake chips are higher for brand new builds, however present Ryzen homeowners with older chips might discover these nearly as good drop-in upgrades in the event that they need to delay constructing a completely new system.Â
The brand new AMD chips deal with two highly effective chips which have change into the mainstay for brand new builds. Our Core i5-12400 evaluation highlights Alder Lake’s distinctive mix of value and efficiency. At $190, this chip is simply as quick at gaming as Intel’s previous-gen $549 Core i9-11900K flagship.
On the decrease pricing tier, we discovered that the four-core eight-thread Core i3-12100 gives a surprising stage of gaming efficiency for the $105 to $130 value level (the graphics-less 12100F saves you some coin), making it the brand new go-to chip for price range gaming rigs. AMD’s Ryzen 3 4100 is a contender right here, however it hasn’t handed via our take a look at bench but. Hold your eyes peeled for that evaluation quickly.Â
The Intel Core i9-12900K and Core i5-12600K are additionally spectacular, with the 12900K geared for absolute efficiency whereas the 12600K slots in as the brand new mainstream gaming champion. In the meantime, the Ryzen 7 5800X3D slots in as the general high-performance worth chip to beat for gaming, whereas the Core i7-12700K is the higher all-rounder. Â Â Â
Now we have the total Ryzen 5000 lineup in our CPU benchmarks, together with the Ryzen 5 5600X, Ryzen 9 5950X, 5900X, and Ryzen 7 5800X, together with all the previous-gen Zen 3, Zen+, and Zen 1 variations of these chips. If you wish to see Intel and AMD’s most essential fashions sq. off head-to-head in our CPU benchmarks, take a look at these articles:
We have added a brand new built-in graphics CPU benchmark rating so you possibly can see how AMD’s APUs stack up relative to prior-gen AMD chips and Intel’s lineup. We’ll clarify how we ranked the processors below every desk. The sport testing rating is first. We additionally embrace an software efficiency metric in our software rating tables, which we have cut up up into single- and multi-threaded measurements (under gaming desk). Probably the most highly effective chip will get a 100, and all others are scored relative to it. If you would like our suggestions for particular value bands, please take a look at our Finest CPUs for Gaming.
Intel Alder Lake vs Ryzen 5000 CPU Benchmarks – Home windows 11
Listed here are the present rankings for the Alder Lake chips in comparison with the Ryzen 5000 lineup in Home windows 11, together with DDR4 vs DDR5 benchmarks and overclocked configurations. Now we have additionally integrated these outcomes into our broader number of checks under for Home windows 10, so check with these charts for a higher historic perspective.
Intel’s Alder Lake processors are the quickest in all metrics, be it gaming, single- or multi-threaded work, in Home windows 11. The chips are nonetheless ultra-competitive in Home windows 10, however do lose among the bigger benefits in a number of key apps, which impacts its rating in Home windows 10. Â
CPU Benchmarks and Efficiency Hierarchy Charts – Home windows 10
We performed these checks in Home windows 10, which penalizes the Twelfth-Gen Intel scores. It is because Home windows 10 does not goal threads on the right cores with the precision that we see in Home windows 11. You’ll be able to see the Home windows 11 ends in the album within the first album within the article.
We rank all of the Intel and AMD processors within the tables under, however we do not embrace overclocked efficiency or 99th percentile fps rankings. You’ll be able to see all of these numbers within the charts above. We have additionally added separate charts for built-in graphics testing.
Keep in mind that the charts above use the uncooked efficiency numbers, whereas our CPU benchmarks rankings under use a rating to rank the chips relative to at least one one other. Admittedly, the charts are getting a bit packed as we broaden our rankings pool, however we’ll work to separate this out into totally different lessons as our CPU benchmarks database grows.
Intel and AMD Gaming CPU Benchmarks HierarchyÂ
*signifies an APU examined with a discrete GPU. Observe: Most of these processors are geared for efficiency with built-in graphics – please see particular person opinions or our part under for these efficiency rankings.
We have ranked all the buyer Intel Twelfth, eleventh, tenth, ninth, eighth, and seventh Gen processors, together with AMD’s Ryzen and Threadripper chips from all 4 generations. Now we have two rankings for every chip, primarily based on 1080p and 1440p CPU gaming benchmarks. We performed these checks in Home windows 10 for compatibility functions. You’ll be able to see how the Home windows 11 hierarchy appears to be like within the slide present additional above.
The chart is aligned sequentially primarily based on the 1080p sport outcomes, however the 1440p listings aren’t listed in sequential order because of the unlucky limitations with our tables. Take note of the 1440p rankings: Some sooner chips at 1440p CPU benchmarks could also be listed under slower chips merely due to the 1080p outcomes. You may additionally discover that the Twelfth-Gen Intel processors, just like the 12900K, 12700K and 12600K, have two measurements for every entry — that is to quantify efficiency with each DDR4 and DDR5 setups, with the previous nearly at all times providing higher efficiency in Home windows 10.
We measured efficiency for the 1080p CPU gaming benchmarks with a geometrical imply of Borderlands 3, Hitman 2, Far Cry 5, Mission CARS 3, Purple Useless Redemption 2, and Shadow of the Tomb Raider. We measured efficiency for the 1440p CPU gaming benchmarks with a geometrical imply of Borderlands 3, Mission CARS 3, Far Cry 5, Purple Useless Redemption 2, and Shadow of the Tomb Raider.
Intel and AMD Built-in Graphics Gaming CPU Benchmarks HierarchyÂ
| 1280×720 | 1920×1080 | |
| Ryzen 7 5700G B550-E | 100% | 100% |
| Ryzen 5 5600G | 96.3% | 96% |
| Ryzen 7 4750G | 92.9% | 94.1% |
| Ryzen 3 5300G | 85.8% | 87.2% |
| Ryzen 5 3400G | 83.5% | 84.1% |
| Ryzen 3 3200G | 77.1% | 78.1% |
| Intel UHD Graphics 750 32 EU (11600K, 11700K) | 58.3% | ~48.9% |
| Intel UHD Graphics 730 24 EU (i5-11400) | 51.7% | 42.9% |
| Intel UHD Graphics 630 24 EU (10600K) | 36.0% | 34.4% |
This is our record of gaming efficiency with built-in graphics on a number of of the main APUs obtainable. We have cut up this into two totally different value ranges, so remember to flip via all the efficiency charts. For a little bit of commentary and evaluation of those outcomes, head to our latest Ryzen 7 5700G, Ryzen 5 5600G and Ryzen 3 5300G opinions.Â
Intel and AMD Single-Threaded CPU Benchmarks Efficiency Hierarchy
| Single-Threaded App Rating | Structure | Cores/Threads | Base/Increase GHz | TDP | |
|---|---|---|---|---|---|
| Intel Core i9-11900K (ABT off/on) | 100% / 99.57% | Rocket Lake | 8 / 16 | 3.5 / 5.3 | 125W |
| AMD Ryzen 9 5950X | 95.31% | Zen 3 | 16 / 32 | 3.4 / 4.9 | 105W |
| Core i9-12900K DDR5 / DDR4 | 95.16% / 94.64% | Alder Lake | 16 / 24 (8P+8E) | 3.2 / 5.2 | 125 / 241W |
| Core i7-11700K | 94.29% | Rocket Lake | 8 / 16 | 3.6 / 5.0 | 95W |
| AMD Ryzen 9 5900X | 93.69% | Zen 3 | 12 / 24 | 3.7 / 4.8 | 105W |
| AMD Ryzen 7 5800X | 92.84% | Zen 3 | 8 / 16 | 3.8 / 4.7 | 105W |
| Intel Core i5-11600K | 92.56% / 89.67% | Rocket Lake | 8 / 16 | 3.9 / 4.9 | 125W |
| Intel Core i7-12700K DDR5 / DDR4 | 91.60% | Alder Lake | 12 / 20 (8P+4E) | 3.6 / 4.9 | 125W / 190W |
| AMD Ryzen 5 5600X | 89.19% | Zen 3 | 6 / 12 | 3.7 / 4.6 | 65W |
| Ryzen 7 5700G | 88.92% | Zen 3 | 8 / 16 | 3.9 / 4.4 | 65W |
| Core i5-12600K DDR4 / DDR5 | 87.85% / 87.82% | Alder Lake | 10 / 16 (6P+4E) | 3.7 / 4.9 | 125 / 150W |
| Intel Core i9-10900K | 86.68% | Comet Lake | 10 / 20 | 3.7 / 5.3 | 125W |
| AMD Ryzen 5 5600G | 85.75% | Zen 3 | 6 / 12 | 3.9 / 4.4 | 65W |
| Intel Core i9-10850K | 84.87% | Comet Lake | 10 / 20 | 3.6 / 5.2 | 95W |
| Intel Core i9-9900KS | 83.13% | Espresso Lake-R | 8 / 16 | 4.0 / 5.0 | 127W |
| Intel Core i5-11400 | 83.09% | Rocket Lake | 6 / 12 | 2.6 / 4.4 | 65W |
| Intel Core i9-9900K | 82.63% | Espresso Lake-R | 8 / 16 | 3.6 / 5.0 | 95W |
| Intel Core i7-10700K | 82.31% | Comet Lake | 8 / 16 | 3.8 / 5.1 | 125W |
| AMD Ryzen 3 5300G | 81.51% | Zen 3 | 4 / 8 | 4.0 / 4.2 | 65W |
| Intel Core i7-9700K | 80.36% | Espresso Lake-R | 8 / 8 | 3.6 / 4.9 | 95W |
| AMD Ryzen 7 3800XT | 79.75% | Zen 2 | 8 / 16 | 3.9 / 4.7 | 105W |
| AMD Ryzen 5 3600XT | 79.11% | Zen 2 | 6 / 12 | 3.8 / 4.5 | 95W |
| AMD Ryzen 9 3900XT | 78.86% | Zen 2 | 12 / 24 | 3.8 / 4.7 | 105W |
| Intel Core i5-10600K | 78.79% | Comet Lake | 6 / 12 | 4.1 / 4. | 125W |
| AMD Ryzen 7 3800X | 78.37% | Zen 2 | 8 / 16 | 3.9 / 4.5 | 105W |
| AMD Ryzen 9 3950X | 78.18% | Zen 2 | 16 / 32 | 3.5 / 4.7 | 105W |
| AMD Ryzen 9 3900X | 77.68% | Zen 2 | 12 / 24 | 3.8 / 4.6 | 105W |
| Intel Core i7-10700/F | ~ | Comet Lake | 8 / 16 | 2.9 / 4.8 | 65W |
| Ryzen 7 4750G | 77.2% | Zen 3 | 8 /16 | 3.6 / 4.4 | 65W |
| AMD Threadripper 3970X | 76.52% | Zen 2 | 32 / 64 | 3.7 / 4.5 | 280W |
| AMD Threadripper 3960X | 76.42% | Zen 2 | 24 / 48 | 3.8 / 4.5 | 280W |
| Intel Core i7-8700K | 76.32% | Espresso Lake | 6 / 12 | 3.7 / 4.7 | 95W |
| AMD Ryzen 7 3700X | 76.29% | Zen 2 | 8 / 16 | 3.6 / 4.4 | 65W |
| Intel Core i7-8086K | 76.21% | Espresso Lake | 6 / 12 | 4.0 / 5.0 | 95W |
| AMD Ryzen 5 3600X | 75.85% | Zen 2 | 6 / 12 | 3.8 / 4.4 | 95W |
| Intel Core i3-9350KF | 75.72% | Espresso Lake | 4 / 4 | 4.0 / 4.6 | 91W |
| AMD Ryzen 3 3300X | 75.62% | Zen 2 | 4 / 8 | 3.8 / 4.3 | 65W |
| Intel Core i5-9600K | 75.41% | Espresso Lake-R | 6 / 6 | 3.7 / 4.6 | 95W |
| Intel Core i9-10980XE | 75.24% | Cascade Lake-X | 18 / 36 | 3.0 / 4.8 | 165W |
| AMD Threadripper 3990X | 75.10% | Zen 2 | 64 / 128 | 2.9 / 4.3 | 280W |
| Intel Core i7-8700 | 74.66% | Espresso Lake | 6 / 12 | 3.2 / 4.6 | 65W |
| AMD Threadripper Professional 3995WX | 74.20% | Zen 2 | 64 / 128 | 2.7 / 4.2 | 280W |
| AMD Ryzen 5 3600 | 73.02% | Zen 2 | 6 / 12 | 3.6 / 4.2 | 65W |
| Intel Core i9-9980XE | ~ | Skylake | 18 / 36 | 4.4 / 4.5 | 165W |
| Intel Core i7-7700K | ~ | Kaby Lake | 4 / 8 | 4.2 / 4.5 | 91W |
| Intel Core i5-8600K | 71.08% | Espresso Lake | 6 / 6 | 3.6 / 4.3 | 95W |
| Core i3-10100 | 70.80% | Espresso Lake | 4 / 8 | 3.6 / 4.3 | 65W |
| AMD Ryzen 7 2700X | 69.53% | Zen+ | 8 / 16 | 3.7 / 4.3 | 105W |
| Intel Core i3-9100 | 69.20% | Espresso Lake-R | 4 / 4 | 3.6 / 4.2 | 65W |
| AMD Ryzen 3 3100 | 67.74% | Zen 2 | 4 / 8 | 3.8 / 3.9 | 65W |
| Intel Core i5-9400 / -9400F | 67.67% | Espresso Lake | 6 / 6 | 2.9 / 4.1 | 65W |
| Intel Xeon W-3175X | 67.51% | Skylake | 28 / 56 | 3.1 / 3.8 | 225W |
| AMD Ryzen 5 2600X | 66.78% | Zen+ | 6 / 12 | 3.6 / 4.2 | 95W |
| Intel Core i3-8350K / -8350KF | 66.71% | Espresso Lake | 4 / 4 | 4.0 / – | 91W |
| Intel Core i5-8400 | 66.03% | Espresso Lake | 6 / 6 | 2.8 / 4.0 | 65W |
| AMD Ryzen 5 3500X | ~ | Zen 2 | 6 / 6 | 3.6 / 4.1 | 65W |
| AMD Ryzen 9 3900 | ~ | Zen 2 | 12 / 24 | 3.1 / 4.3 | 65W |
| Intel Core i3-7100 | ~ | Kaby Lake | 2 / 4 | 3.9 / – | 51W |
| AMD Threadripper 2950X | ~ | Zen + | 16 / 32 | 3.5 / 4.4 | 180W |
| AMD Threadripper 2990WX | ~ | Zen+ | 32 / 64 | 3.0 / 4.2 | 250W |
| AMD Threadripper 2970WX | ~ | Zen + | 24 / 48 | 3.0 / 4.2 | 250W |
| AMD Ryzen 5 3400G | 64.86% | Zen + | 4 / 8 | 3.7 / 4.2 | 65W |
| AMD Ryzen 5 1600X | 63.62% | Zen | 6 / 12 | 3.6 / 4.0 | 95W |
| AMD Ryzen 7 1800X | 61.99% | Zen | 8 / 16 | 3.6 / 4.0 | 95W |
| Intel Core i5-7400 | ~ | Kaby Lake | 4 / 4 | 3.0 / 3.5 | 65W |
| AMD Ryzen 3 3200G | 60.90% | Zen + | 4 / 4 | 3.6 / 4.0 | 65W |
| AMD Ryzen 5 2400G | 60.79% | Zen+ | 4 / 8 | 3.6 / 3.9 | 65W |
| AMD Ryzen 3 1300X | ~ | Zen | 4 / 4 | 3.5 / 3.7 | 65W |
| AMD Ryzen 5 1600AF | ~ | Zen | 6 / 12 | 3.2 / 3.6 | 65W |
| Intel Pentium G5600 | 60.13% | Espresso Lake | 2 / 4 | 3.9 / – | 54W |
| Intel Core i3-8100 | 60.12% | Espresso Lake | 4 / 4 | 3.6 / – | 65W |
| AMD Ryzen 3 2200G | 57.09% | Zen | 4 / 4 | 3.5 / 3.7 | 65W |
| Intel Pentium G5400 | 56.79% | Espresso Lake | 2 / 4 | 3.7 / – | 54W |
| AMD Athlon 3000G | ~ | Zen+ | 2 / 4 | 3.5 / – | 35W |
| AMD Athlon 220GE | ~ | Zen | 2 / 4 | 3.4 / – | 35W |
| Intel Pentium G4560 | ~ | Kaby Lake | 2 / 4 | 3.5 / – | 54W |
| AMD Athlon 200GE | ~ | Zen | 2 / 4 | 3.2 / – | 35W |
| AMD A10-9700 | ~ | Bristol Ridge | 4 / 4 | 3.5 / 3.8 | 65W |
| Zhaoxin KaiXian KX-U6780A | ~ | LuJiaZui | 8 / 8 | 2.7 / – | 70W |
We calculate the above single-threaded CPU benchmarks rankings primarily based on a geometrical imply of Cinebench, POV-Ray, and LAME. The latter consists of two checks: One quick period take a look at and one extended-duration take a look at to measure efficiency as soon as Intel’s increase period limits have been exceeded.
We performed these checks in Home windows 10, which penalizes the Twelfth-Gen Intel scores. It is because Home windows 10 does not goal threads on the right cores with the precision that we see in Home windows 11. You’ll be able to see the Home windows 11 ends in the album within the first album within the article, however suffice it to say that Alder Lake chips, just like the Core i7-12900K, 12700K and 12600K, lead by giant margins in Home windows 11.
Single-threaded efficiency is commonly tied on to the responsiveness and snappiness of your PC in any variety of day by day functions, like loading an working system or browsing the net. This metric largely relies upon upon a combination of instruction per cycle (IPC) throughput (the variety of operations the chip can execute in a single clock cycle) and frequency, which is the pace at which the transistors change between on and off states.
Nevertheless, an entire host of different issues, akin to cache, structure, and interconnects (like rings, meshes, and infinity cloth) influence this measure of per-core efficiency, so these outcomes don’t align completely primarily based upon clock frequency. As a substitute, efficiency varies with every software and the way properly it’s tuned for the respective architectures.
Intel and AMD Multi-Threaded CPU Benchmarks Efficiency
| Multi-Threaded App Rating | Structure | Cores/Threads | Base/Increase GHz | TDP | |
|---|---|---|---|---|---|
| AMD Threadripper 3990X | 100.0% | Zen 2 | 64 / 128 | 2.9 / 4.3 | 280W |
| AMD Threadripper Professional 3995WX | 97.59% | Zen 2 | 64 / 128 | 2.7 / 4.2 | 280W |
| AMD Threadripper 3970X | 75.74% | Zen 2 | 32 / 64 | 3.7 / 4.5 | 280W |
| AMD Threadripper 3960X | 64.76% | Zen 2 | 24 / 48 | 3.8 / 4.5 | 280W |
| Intel Xeon W-3175X | 59.95% | Skylake | 28 / 56 | 3.1 / 4.3 | 225W |
| AMD Ryzen 9 5950X | 53.58% | Zen 3 | 16 / 32 | 3.4 / 4.9 | 105W |
| AMD Ryzen 9 3950X | 47.32% | Zen 2 | 16 / 32 | 3.5 / 4.7 | 105W |
| AMD Ryzen 9 5900X | 45.89% | Zen 3 | 12 / 24 | 3.7 / 4.8 | 105W |
| Intel Core i9-10980XE | 43.06% | Cascade Lake-X | 18 / 36 | 3.0 / 4.8 | 165W |
| Intel Core i9-9980XE | ~ | Skylake | 18 / 36 | 4.4 / 4.5 | 165W |
| AMD Threadripper 2990WX | ~ | Zen+ | 32 / 64 | 3.0 / 4.2 | 250W |
| AMD Ryzen 9 3900X | 38.69% | Zen 2 | 12 / 24 | 3.8 / 4.6 | 105W |
| AMD Ryzen 9 3900XT | 38.66% | Zen 2 | 12 / 24 | 3.8 / 4.7 | 105W |
| Core i9-12900K DDR4 / DDR5 | 38.39% / 38.11% | Alder Lake | 16 / 24 (8P+8E) | 3.2 / 5.2 | 125 / 241W |
| Intel Core i9-11900K (ABT off/on) | 36.01% / 37.07% | Rocket Lake | 8 / 16 | 3.5 / 5.3 | 125W |
| AMD Threadripper 2970WX | ~ | Zen + | 24 / 48 | 3.0 / 4.2 | 250W |
| Core i7-11700K | 34.26% | Rocket Lake | 8 / 16 | 3.6 / 5.0 | 125W |
| Intel Core i9-10900K | 33.79% | Comet Lake | 10 / 20 | 3.7 / 5.3 | 125W |
| AMD Ryzen 7 5800X | 33.48% | Zen 3 | 8 / 16 | 3.8 / 4.7 | 105W |
| Intel Core i9-10850K | 33.38% | Comet Lake | 10 / 20 | 3.6 / 5.2 | 95W |
| AMD Threadripper 2950X | ~ | Zen + | 16 / 32 | 3.5 / 4.4 | 180W |
| AMD Ryzen 9 3900 | ~ | Zen 2 | 12 / 24 | 3.1 / 4.3 | 65W |
| Ryzen 7 5700G | 29.73% | Zen 3 | 8 / 16 | 3.8 / 4.6 | 65W |
| Intel Core i9-9900KS | 29.11% | Espresso Lake-R | 8 / 16 | 4.0 / 5.0 | 127W |
| Core i7-12700K DDR5 / DDR4 | 28.77% / 28.77% | Alder Lake | 12 / 20 (8P+4E) | 2.7 / 3.8 | 125 / 190W |
| AMD Ryzen 7 3800XT | 28.49% | Zen 2 | 8 / 16 | 3.9 / 4.7 | 105W |
| AMD Ryzen 7 3800X | 28.25% | Zen 2 | 8 / 16 | 3.9 / 4.5 | 105W |
| Intel Core i7-10700K | 28.17% | Comet Lake | 8 / 16 | 3.8 / 5.1 | 125W |
| Intel Core i9-9900K | 27.78% | Espresso Lake-R | 8 / 16 | 3.6 / 5.0 | 95W |
| AMD Ryzen 7 3700X | 27.47% | Zen 2 | 8 / 16 | 3.6 / 4.4 | 65W |
| Intel Core i5-11600K | 26.79% | Rocket Lake | 8 / 16 | 3.9 / 4.9 | 125W |
| AMD Ryzen 5 5600X | 26.15% | Zen 3 | 6 / 12 | 3.7 / 4.6 | 65W |
| AMD Ryzen 7 4750G | 26.06% | Zen 3 | 8 / 16 | 3.6 / 4.4 | 65W |
| Intel Core i7-10700/F | ~ | Comet Lake | 8 / 16 | 2.9 / 4.8 | 65W |
| Intel Core i5-11400 | 24.46% | Rocket Lake | 6 / 12 | 2.6 / 4.4 | 65W |
| AMD Ryzen 5 5600G | 23.33% | Zen 3 | 6 / 12 | 3.9 / 4.4 | 65W |
| Core i5-12600K DDR4 / DDR5 | 2308% / 23.07% | Alder Lake | 10 / 16 (6P+4E) | 3.7 / 4.9 | 125 / 150W |
| Intel Core i7-9700K | 22.81% | Espresso Lake-R | 8 / 8 | 3.6 / 4.9 | 95W |
| AMD Ryzen 5 3600XT | 22.28% | Zen 2 | 6 / 12 | 3.8 / 4.5 | 95W |
| AMD Ryzen 5 3600X | 21.76% | Zen 2 | 6 / 12 | 3.8 / 4.4 | 95W |
| AMD Ryzen 5 3600 | 21.41% | Zen 2 | 6 / 12 | 3.6 / 4.2 | 65W |
| AMD Ryzen 7 2700X | 21.59% | Zen+ | 8 / 16 | 3.7 / 4.3 | 105W |
| Intel Core i5-10600K | 20.83% | Comet Lake | 6 / 12 | 4.1 / 4.8 | 125W |
| Intel Core i7-8700K | 20.23% | Espresso Lake | 6 / 12 | 3.7 / 4.7 | 95W |
| Core i7-8700 | 20.04% | Espresso Lake | 6 / 12 | 3.2 / 4.6 | 65W |
| Core i7-8086K | 19.30% | Espresso Lake | 6 / 12 | 4.0 / 5.0 | 95W |
| AMD Ryzen 7 1800X | 19.17% | Zen | 8 / 16 | 3.6 / 4.0 | 95W |
| AMD Ryzen 5 2600X | 16.96% | Zen+ | 6 / 12 | 3.6 / 4.2 | 95W |
| Intel Core i5-9600K | 16.60% | Espresso Lake-R | 6 / 6 | 3.7 / 4.6 | 95W |
| AMD Ryzen 5 3500X | ~ | Zen 2 | 6 / 6 | 3.6 / 4.1 | 65W |
| Intel Core i7-7700K | ~ | Kaby Lake | 4 / 8 | 4.2 / 4.5 | 91W |
| Intel Core i5-8600K | 15.93% | Espresso Lake | 6 / 6 | 3.6 / 4.3 | 95W |
| AMD Ryzen 3 5300G | 15.83% | Zen 3 | 4 / 8 | 4.0 / 4.2 | 65W |
| AMD Ryzen 3 3300X | 15.55% | Zen 2 | 4 / 8 | 3.8 / 4.3 | 65W |
| AMD Ryzen 5 1600AF | ~ | Zen | 6 / 12 | 3.2 / 3.6 | 65W |
| AMD Ryzen 5 1600X | 15.16% | Zen | 6 / 12 | 3.6 / 4.0 | 95W |
| Intel Core i5-9400 / -9400F | 15.04% | Espresso Lake | 6 / 6 | 2.9 / 4.1 | 65W |
| Intel Core i5-8400 | 14.76% | Espresso Lake | 6 / 6 | 2.8 / 4.0 | 65W |
| AMD Ryzen 3 3100 | 14.17% | Zen 2 | 4 / 8 | 3.8 / 3.9 | 65W |
| Core i3-10100 | 13.37% | Rocket Lake | 4 / 8 | 3.6 / 4.3 | 65W |
| Intel Core i3-9350KF | 11.76% | Espresso Lake | 4 / 4 | 4.0/4.6 | 91W |
| AMD Ryzen 5 3400G | 11.31% | Zen + | 4 / 8 | 3.7 / 4.2 | 65W |
| Intel Core i3-8350K | 10.74% | Espresso Lake | 4 / 4 | 4.0 / – | 91W |
| Intel Core i3-9100 | 10.70% | Espresso Lake-R | 4 / 4 | 3.6 / 4.2 | 65W |
| AMD Ryzen 5 2400G | 10.56% | Zen+ | 4 / 8 | 3.6 / 3.9 | 65W |
| Intel Core i3-8100 | 9.61% | Espresso Lake | 4 / 4 | 3.6 / – | 65W |
| Intel Core i5-7400 | ~ | Kaby Lake | 4 / 4 | 3.0 / 3.5 | 65W |
| AMD Ryzen 3 3200G | 8.66% | Zen + | 4 / 4 | 3.6 / 4.0 | 65W |
| AMD Ryzen 3 1300X | ~ | Zen | 4 / 4 | 3.5 / 3.7 | 65W |
| Intel Core i3-7100 | ~ | Kaby Lake | 2 / 4 | 3.9 / – | 51W |
| AMD Ryzen 3 2200G | 7.99% | Zen | 4 / 4 | 3.5 / 3.7 | 65W |
| Intel Pentium G5600 | 5.43% | Espresso Lake | 2 / 4 | 3.9 / – | 54W |
| AMD Athlon 3000G | ~ | Zen+ | 2 / 4 | 3.5 / – | 35W |
| AMD Athlon 220GE | ~ | Zen | 2 / 4 | 3.4 / – | 35W |
| Intel Pentium G5400 | 5.13% | Espresso Lake | 2 / 4 | 3.7 / – | 54W |
| AMD Athlon 200GE | ~ | Zen | 2 / 4 | 3.2 / – | 35W |
| Intel Pentium G4560 | ~ | Kaby Lake | 2 / 4 | 3.5 / – | 54W |
| AMD A10-9700 | ~ | Bristol Ridge | 4 / 4 | 3.5 / 3.8 | 65W |
| Zhaoxin KaiXian KX-U6780A | ~ | LuJiaZui | 8 / 8 | 2.7 / – | 70W |
The multi-threaded workload column is predicated on CPU benchmarks efficiency in Cinebench, POV-ray, vray, Blender (4 checks – Koro, Barcellona, Classroom, bmw27), y-cruncher, and Handbrake x264 and x265 workloads. These CPU benchmarks symbolize efficiency in productivity-focused functions that are inclined to require extra compute horsepower.
We performed these checks in Home windows 10, which penalizes the Twelfth-Gen Intel scores. It is because Home windows 10 does not goal threads on the right cores with the precision that we see in Home windows 11. You’ll be able to see the Home windows 11 ends in the album within the first album within the article, however suffice it to say that Alder Lake chips, just like the Core i7-12900K, 12700K and 12600K, carry out significantly better in Home windows 11.
Like we see with single-threaded efficiency metrics, multi-threaded efficiency, which is a measure of a chip’s efficiency in functions that make the most of a number of software program threads, varies primarily based upon an entire host of architectural elements. It additionally relies upon closely upon how properly the software program scales with extra compute cores. As such, these outcomes don’t align completely primarily based upon core/thread depend, although it does function a good litmus of multi-threaded efficiency.Â
Bear in mind that architectures, caches, and interconnects profoundly influence these outcomes, as all of those elements influence how properly efficiency scales with extra threads. Efficiency not often scales completely with the addition of extra cores/threads, so the scaling issue of every processor structure weighs in closely on the worth proposition of going with a better core depend processor.
CPU Benchmarks Check System and Configuration
| {Hardware} | |
|---|---|
| AMD Socket AM4 (400- 500-Sequence) | AMD Ryzen 2000- 3000- 5000- sequence processors |
| MSI MEG X570 Godlike | |
| 2x 8GB Trident Z Royal DDR4-3600 | |
| Intel LGA 1151 (Z490) | Intel Comet Lake processors |
| (opens in new tab)MSI Z370 Gaming Professional Carbon AC | |
| 2x 8GB Trident Z Royal DDR4-3600 | |
| AMD Socket AM4 (300-Sequence) | Ryzen 1000-series processors |
| (opens in new tab)MSI X370 Xpower Gaming Titanium | |
| 2x 8GB G.Talent FlareX DDR4-3200 @ DDR4-2667 | |
| Intel LGA 1151 (Z270) | Intel Espresso Lake, Kaby Lake processors |
| (opens in new tab)MSI Z270 Gaming M7 | |
| 2x 8GB Trident Z Royal DDR4-3600 | |
| Intel LGA 2066 | Intel Skylake processors |
| (opens in new tab)MSI X299 Gaming Professional Carbon AC | |
| 2x 8GB Trident Z Royal DDR4-3600 | |
| All | Gigabyte GeForce RTX 3090 Eagle |
| 2TB Intel DC4510 SSD | |
| EVGA Supernova 1600 T2, 1600W | |
| Home windows 10 Professional model 2004 (construct 19041.450) | |
| Cooling | (opens in new tab)Corsair H115i |
Legacy Desktop CPU Benchmarks Hierarchy
Recognizing that a variety of older platforms are going to be paired with graphics subsystems a number of generations previous, we wished to outline the highest of our vary to encourage steadiness between host processing and complementary GPUs. At this level, anybody with a Sandy Bridge-based Core i7 would understand a achieve from stepping as much as Espresso Lake or Kaby Lake, for instance. And placing AMD’s prime FX CPUs subsequent to a handful of Core i7s and people older Core i5s represents an improve to their standing.
Presently, our hierarchy consists of 13 complete tiers. The underside half of the chart is essentially outdated; you will discover these CPUs dragging down efficiency within the newest video games, whether or not you’ve one of many greatest graphics playing cards or not. For those who personal a CPU in that vary, an improve might actually take your expertise to a different stage.
Actually, it is the highest 5 tiers or in order that stay viable. And in that prime half of the chart, an improve is often worthwhile if it is a least a few tiers increased. In any other case, there’s simply not sufficient enchancment to warrant the expense of a contemporary CPU, motherboard and RAM (to not point out the graphics card and storage resolution you would be contemplating as properly).Â
| Intel CPUs | AMD CPUs and APUs |
| Intel Core i7-8700K | |
| Intel Core i9-7900X | |
| Intel Core i9-7960X | |
| Intel Core i9-7980XE | |
| Intel Core i7-8700K | |
| Intel Core i7-7740X | |
| Intel Core i7-7700K | |
| Intel Core i7-7820X | AMD Ryzen Threadripper 1950X |
| Intel Core i7-7700 | AMD Ryzen Threadripper 1920X |
| Intel Core i5-8400 | AMD Ryzen 7 1800X |
| Intel Core i7-7800X | AMD Ryzen Threadripper 1900X |
| Intel Core i7-7700T | AMD Ryzen 7 1700X |
| Intel Core i7-6950X | AMD Ryzen 7 1700 |
| Intel Core i7-6900K | AMD Ryzen 5 1600X |
| Intel Core i7-6850K | AMD Ryzen 5 1600 |
| Intel Core i7-6800K | AMD Ryzen 5 1500X |
| Intel Core i7-6700K | AMD Ryzen 5 1400 |
| Intel Core i7 6700 | AMD Ryzen 3 1300X |
| Intel Core i7-5960X | Ryzen 5 2400G |
| Intel Core i7-5930K | |
| Intel Core i7-5820K | |
| Intel Core i7-5775C | |
| Intel i7-4960X | |
| Intel Core i7-4930K | |
| Intel Core i7-4820K | |
| Intel Core i7-4790K | |
| Intel Core i7-4770K | |
| Intel Core i7-4790 | |
| Intel Core i7-4771 | |
| Intel Core i7-4770 | |
| Intel Core i7-3970X | |
| Intel Core i7-3960X | |
| Intel Core i7-3930K | |
| Intel Core i7-3820 | |
| Intel Core i7-3770K | |
| Intel Core i7-3770 | |
| Intel Core i5-7640X | |
| Intel Core i5-7600K | |
| Intel Core i5-7600 | |
| Intel Core i5-7500 | |
| Intel Core i5-7400 | |
| Intel Core i5 6600K | |
| Intel Core i5-6600 | |
| Intel Core i5-6500 | |
| Intel Core i5 6402P | |
| Intel Core i5-6400 | |
| Intel Core i5-5675C | |
| Intel Core i5-4690K | |
| Intel Core i5-4670K | |
| Intel Core i5-4590 | |
| Intel Core i5-4670 | |
| Intel Core i5-4570 | |
| Intel BX80646I54460 | |
| Intel Core i5-4440 | |
| Intel Core i5-4430 | |
| Intel Core i5-3570K | |
| Intel Core i5-3570 | |
| Intel Core i5-3550 | |
| Intel CPUs | AMD CPUs and APUs |
| Intel Core i7-990X Excessive | |
| Intel Core i7-980X Excessive | |
| Intel Core i7-975 Excessive | |
| Intel Core i7-2600K | |
| Intel Core i7-2600 | |
| Intel Core i7-965 | |
| Intel Core i5-3470 | |
| Intel Core i5-3450P | Intel Core i7-7700 |
| Intel Core i5-3450 | AMD FX-9370 |
| Intel Core i5-3350P | AMD FX-8370 |
| Intel Core i5-3330 | AMD FX-8350 w/Wraith |
| Intel Core i5-2550K | AMD FX-8320 |
| Intel Core i5-2500K | AMD FX-8300 |
| Intel Core i5-2500 | AMD FX-8150 |
| Intel Core i5-2450P | |
| Intel Core i5-2400 | |
| Intel Core i5-2380P | |
| Intel Core i5-2320 | |
| Intel Core i5-2310 | |
| Intel Core i5-2300 | |
| Intel Core i3-7350K | |
| Intel Core i3-7320 | |
| Intel Core i3-7300 | |
| Intel Core i3-7100 | |
| Intel CPUs | AMD CPUs and APUs |
| Intel Core i7-980 | |
| Intel Core i7-970 | |
| Intel Core i7-960 | |
| Intel Core i7-875K | |
| Intel Core i7-870 | |
| Intel Core i3 6320 | |
| Intel Core i3 6300 | |
| Intel Core i3-6100 | AMD FX-6350 |
| Intel Core i3 6100T | AMD FX-4350 |
| Intel Core i3-6098P | AMD Phenom II X6 1100T Black Version |
| Intel Core i3-4360 | AMD Phenom II X6 1090T Black Version |
| Intel Core i3-4350 | AMD Phenom II X4 Black Version 980 |
| Intel Core i3-4340 | AMD Phenom II X4 Black Version 975 |
| Intel Core i3-4170 | |
| Intel Core i3-4160 | |
| Intel Core i3-4150 | |
| Intel Core i3-4130 | |
| Intel Core i3-3250 | |
| Intel Core i3-3245 | |
| Intel Core i3-3240 | |
| Intel Core i3-3225 | |
| Intel Core i3-3220 | |
| Intel Core i3-3210 | |
| Intel Core i3-2130 | |
| Intel Core i3-2025 | |
| Intel Core i3-2120 | |
| Intel Core i3-2105 | |
| Intel Core i3-2100 | |
| Intel Pentium G4620 | |
| Intel Pentium G4600 | |
| Intel Pentium G4560 | |
| Intel Pentium G4500 | |
| Intel Pentium G4400 | |
| Intel CPUs | AMD CPUs and APUs |
| AMD FX-8370E | |
| AMD FX-8320 | |
| AMD FX-8120 | |
| AMD FX-6300 | |
| AMD FX-6200 | |
| AMD FX-4300 | |
| AMD FX-4170 | |
| AMD Phenom II X6 1075T | |
| Intel Core i7-950 | AMD Phenom II X4 970 Black Version |
| Intel Core i7-940 | AMD Phenom II X4 965 |
| Intel Core i7-930 | AMD Phenom II X4 955 |
| Intel Core i7-920 | AMD A10-7890K APU |
| Intel Core i7-860 | Intel A10-7870K |
| Intel Core i5-3220T | AMD A10-7860K |
| Intel Core i5-2405S | AMD A10-7850K |
| Intel Core i5-2400S | AMD A10-7800 |
| Intel Core i5-760 | AMD A10-7700K |
| Intel Core i5-750 | AMD A10-6800K |
| Intel Core 2 Excessive QX9775 | AMD A10-6790K |
| Intel Core 2 Excessive QX9770 | AMD A10-6700 |
| Intel Core 2 Excessive QX9650 | AMD A10-5800K |
| Intel Core 2 Quad Q9650 | AMD A10-5700 |
| Intel A8-7650K | |
| AMD A8-7600 | |
| AMD A8-6600K | |
| AMD A8-5600K | |
| AMD A8-3870K | |
| AMD A8-3870 | |
| AMD A8-3850 | |
| AMD Athlon X4 880K | |
| Intel Athlon X4 870K) | |
| Intel A10-7870K | |
| AMD Athlon X4 750K | |
| AMD Athlon X4 740 | |
| AMD Athlon X4 651K | |
| AMD Athlon X4 645 | |
| AMD Athlon X4 641 | |
| AMD Athlon X4 640 | |
| Intel CPUs | AMD CPUs and APUs |
| AMD FX-6100 | |
| AMD FX-4130 | |
| AMD FX-4100 | |
| Intel Core 2 Excessive QX6850 | AMD Phenom II X6 1055T |
| Intel Core 2 Excessive QX6800 | AMD Phenom II X6 1045T |
| Intel Core 2 Quad Q9550 | AMD Phenom II X4 945 |
| Intel Core 2 Quad Q9450 | AMD Phenom II X4 940 |
| Intel Core 2 Quad Q9400 | AMD Phenom II X4 920 |
| Intel Core i5-680 | AMD Phenom II X3 740 |
| Intel Core i5-670 | AMD Phenom II X3 720 Black Version |
| Intel Core i5-661 | AMD A8-6500 |
| Intel Core i5-660 | AMD A8-5500 |
| Intel Core i5-655K | AMD A6 |
| Intel Core i5-650 | AMD A6 |
| Intel Core i3-2120T | AMD A6-3670K |
| Intel Core i3-2100T | AMD A6-3650 |
| AMD Athlon II X4 635 | |
| AMD Athlon II X4 630 | |
| Intel CPUs | AMD CPUs and APUs |
| Intel Core 2 Excessive QX6700 | |
| Intel Core 2 Quad Q9300 | |
| Intel Core 2 Quad Q8400 | |
| Intel Core 2 Quad Q8300 | |
| Intel Core 2 Quad Q6700 | |
| Intel Core 2 Quad Q6600 | |
| Intel Core 2 Duo E8600 | |
| Intel Core 2 Duo E8500 | AMD Phenom II X4 910 |
| Intel Core 2 Duo E8400 | AMD Phenom II X4 910e |
| Intel Core 2 Duo E7600 | AMD Phenom II X4 810 |
| Intel Core i3-550 | AMD Athlon II X4 631 |
| Intel Core i3-540 | AMD Athlon II X4 620 |
| Intel Core i3-530 | AMD Athlon II X3 460 |
| Intel Pentium G3470 | |
| Intel Pentium G3460 | |
| Intel Pentium G3450 | |
| Intel Pentium G3440 | |
| Intel Pentium G3430 | |
| Intel Pentium G3420 | |
| Intel Pentium G3260 | |
| Intel Pentium G3258 | |
| Intel Pentium G3250 | |
| Intel Pentium G3220 | |
| Intel Pentium G2130 | |
| Intel Pentium G2120 | |
| Intel Pentium G2020 | |
| Intel Pentium G2010 | |
| Intel Pentium G870 | |
| Intel Pentium G860 | |
| Intel Pentium G850 | |
| Intel Pentium G840 | |
| Intel Pentium G645 | |
| Intel Pentium G640 | |
| Intel Pentium G630 | |
| Intel CPUs | AMD CPUs and APUs |
| Intel Core 2 Excessive X6800 | |
| Intel Core 2 Quad Q8200 | |
| Intel Core 2 Duo E8300 | AMD Phenom II X4 905e |
| Intel Core 2 Duo E8200 | AMD Phenom II X4 805 |
| Intel Core 2 Duo E8190 | AMD Phenom II X3 710 |
| Intel Core 2 Duo E7500 | AMD Phenom II X3 705e |
| Intel Core 2 Duo E7400 | AMD Phenom II X2 565 Black Version |
| Intel Core 2 Duo E6850 | AMD Phenom II X2 560 Black Version |
| Intel Core 2 Duo E6750 | AMD Phenom II X2 555 Black Version |
| Intel Pentium G620 | AMD Phenom II X2 550 Black Version |
| Intel Celeron G1630 | AMD Phenom II X2 545 |
| Intel Celeron G1620 | AMD Phenom X4 9950 |
| Intel Celeron G1610 | AMD Athlon II X3 455 |
| Intel Celeron G555 | AMD Athlon II X3 450 |
| Intel Celeron G550 | AMD Athlon II X3 445 |
| Intel Celeron G540 | AMD Athlon II X3 440 |
| Intel Celeron G530 | AMD Athlon II X3 435 |
| Intel Celeron G3950 | AMD Athlon II X3 425 |
| Intel Celeron G3930 | |
| Intel Celeron G3930 | |
| Intel Celeron G3900 | |
| Intel CPUs | AMD CPUs and APUs |
| AMD Phenom X4 9850 | |
| AMD Phenom X4 9750 | |
| AMD Phenom X4 9650 | |
| Intel Core 2 Duo E7300 | AMD Phenom X4 9600 |
| Intel Core 2 Duo E7200 | AMD Phenom X3 8850 |
| Intel Core 2 Duo E6700 | AMD Phenom X3 8750 |
| Intel Core 2 Duo E6550 | AMD Athlon II X2 370K |
| Intel Core 2 Duo E6540 | AMD Athlon II X2 265 |
| Intel Pentium Twin-Core E6700 | AMD Athlon II X2 260 |
| Intel Pentium Twin-Core E6600 | AMD Athlon II X2 255 |
| Intel Pentium Twin-Core E650 | AMD A6-5500K |
| Intel Pentium Twin-Core E6300 | AMD A6 |
| Intel Pentium Twin-Core E5800 | AMD A4-7300 |
| Intel Pentium Twin-Core E5700 | AMD A4-6400K |
| Intel Pentium G9650 | AMD A4-6300 |
| AMD A4-5400K | |
| AMD A4-5300 | |
| AMD A4-4400 | |
| AMD A4-4000 | |
| AMD A4-3400 | |
| AMD A4-3300 | |
| AMD Sempron 2650 | |
| AMD Athlon 64 X2 6400+ | |
| Intel CPUs | AMD CPUs and APUs |
| AMD Phenom X4 9550 | |
| AMD Phenom X4 9500 | |
| AMD Phenom X4 9450e | |
| Intel Core 2 Duo E6600 | AMD Phenom X4 9350e |
| Intel Core 2 Duo E6420 | AMD Phenom X3 8650 |
| Intel Core 2 Duo E4700 | AMD Phenom X3 8600 |
| Intel Core 2 Duo E4600 | AMD Phenom X3 8550 |
| Intel Core 2 Duo E4500 | AMD Phenom X3 8450e |
| Intel Pentium Twin-Core E5400 | AMD Phenom X3 8450 |
| Intel Pentium Twin-Core E5300 | AMD Phenom X3 8400 |
| Intel Pentium Twin-Core E5200 | AMD Phenom X3 8250e |
| Intel Pentium Twin-Core G620T | AMD Athlon II X2 250 |
| AMD Athlon II X2 245 | |
| AMD Athlon II X2 240 | |
| AMD Athlon X2 7850 | |
| AMD Athlon X2 7750 | |
| AMD Athlon 64 X2 6000+ | |
| AMD Athlon 64 X2 5600+ | |
| Intel CPUs | AMD CPUs and APUs |
| AMD Phenom X4 9150e | |
| AMD Phenom X4 9100e | |
| Intel Core 2 Duo E6400 | AMD Athlon X2 7550 |
| Intel Core 2 Duo E6320 | AMD Athlon X2 7450 |
| Intel Core 2 Duo E4400 | AMD Athlon X2 5050e |
| Intel Core 2 Duo E4300 | AMD Athlon X2 4850e/b |
| Intel Celeron E3300 | AMD Athlon 64 X2 5400+ |
| AMD Athlon 64 X2 5200+ | |
| AMD Athlon 64 X2 5000+ | |
| AMD Athlon 64 X2 4800+ | |
| Intel CPUs | AMD CPUs and APUs |
| Intel Core 2 Duo E6300 | AMD Athlon X2 6550 |
| Intel Core 2 Duo E5500 | AMD Athlon X2 6500 |
| Intel Pentium Twin-Core E2220 | AMD Athlon X2 4450e/b |
| Intel Pentium Twin-Core E2200 | AMD Athlon X2 4600+ |
| Intel Pentium Twin-Core E2210 | AMD Athlon X2 4400+ |
| Intel Celeron E3200 | AMD Athlon X2 4200+ |
| AMD Athlon X2 BE-2400 | |
| Intel CPUs | AMD CPUs and APUs |
| Intel Pentium Twin-Core E2180 | AMD Athlon 64 X2 4000+ |
| Intel Celeron 1600 | AMD Athlon 64 X2 3800+ |
| Intel Celeron G440 | AMD Athlon X2 4050e |
| AMD Athlon X2 2300 Black Version | |
| Intel CPUs | AMD CPUs and APUs |
| Intel Pentium Twin-Core E2160 | |
| Intel Pentium Twin-Core E2140 | |
| Intel Celeron E1500 | |
| Intel Celeron E1400 | |
| Intel Celeron E1200 |
Discovering Offers on the Finest CPUs
Whether or not you are looking for a processor that is on our record of greatest CPUS or one that did not fairly make the minimize, you could discover financial savings by checking our record of coupon codes, particularly our lists of Newegg promo codes and Micro Heart coupons.
MORE: Finest Gaming CPUs
MORE: Finest Low cost CPUs
MORE: Finest Desktop CPUs
MORE: GPU Benchmarks
