Ryzen 4000 Mobile CPUs offer benchmark busting multi-core performance on the go, but marketing hype aside, it’s unclear how this will translate to real world performance. Sixteen threads are great for beating benchmarks including UserBenchmark 64-core, Cinebench, Blender-CPU and Handbrake-CPU but gamers need performance in the games that they actually play. At launch, the top GPU available in a 4000 series laptop is the RTX 2060. Since the GPU is largely responsible for overall gaming performance, the Ryzen 4000 laptops will offer mid tier gaming performance at best. Pairing stronger GPUs would be suboptimal because the Ryzen gaming bottleneck becomes increasingly severe with more powerful GPUs. Streamers and media producers, who may have historically benefited from high core counts, are better off using the GPU (NVENC or QuickSync) for encoding. Leading media creation applications including both DaVinci Resolve and Adobe Premiere Pro are largely GPU bound. With low power consumption and high core counts, the 4000 range, on paper at least, is a perfect fit for the datacenter. AMD should focus on delivering a platform that offers performance where end users actually need it rather than targeting inexperienced gamers with the same old "moar cores" mantra. From a gamer’s perspective, the best feature of the 4000 series laptops is the absence of the equally hyped 5000 series GPUs. Prospective gaming laptop buyers will find lower latency (and therefore better gaming) CPUs combined with faster GPUs at similar price points. [Mar '20CPUPro]
The Ryzen 7 3800X is an 8-core, 16-thread high end desktop Zen 2 processor, built on AMD’s seminal 7nm manufacturing process. It has a boost clock speed of 4.5 GHz, overtaking the previous Zen+ flagship, the Ryzen 7 2700X, by 200 MHz and around 16% in terms of effective speed. The 3800X is available at launch for $399 USD alongside four other new Zen 2 processors, including the similarly specified Ryzen 7 3700X. The main differences between the 3800X and 3700X being an extra 100 MHz of boost clock frequency on the 3800X and extra TDP headroom (105W for the 3800X versus 65W for the 3700X) for a $70 USD premium. The 21% higher release price translates to just a 2% higher effective speed over the 3700X. The 3800X is in direct competition with Intel’s i7-9700K, benchmarks show that, when overclocked, the 3800X is 10% worse for gaming but 30% faster for 64-core processing. The 3800X is also 15% ($50 USD) more expensive than the i7-9700K. Additionally, the 3800X's memory controller, although significantly improved over previous Ryzen iterations, still has limited bandwidth and high latency which can also impact gaming. Like the other third generation Ryzen processors, the 3800X is compatible with the new PCIe 4.0 enabled X570 chipset as well as the 400 and 300 series motherboards. At $380 USD, the 3800X offers reasonable value for purely workstation tasks such as film production but streamers should look elsewhere. Streaming with dedicated hardware such as NVENC or a separate stream PC will nearly always result in fewer dropped frames. [Jul '19CPUPro]
We calculate effective speed which measures real world performance for typical users. Effective speed is adjusted by current prices to yield a value for money rating. Our calculated values are checked against thousands of individual user ratings. The customizable table below combines these factors to bring you the definitive list of top CPUs. [CPUPro]
Welcome to our PC speed test tool. UserBenchmark will test your PC and compare the results to other users with the same components. You can quickly size up your PC, identify hardware problems and explore the best value for money upgrades.