AMD Unveils Ryzen Threadripper 9000: Up to 145% Faster Than Intel Xeon in Workstation Benchmarks

AMD has unveiled the performance benchmarks of its Ryzen Threadripper 9000-series processors, which it announced at Computex but had not previously disclosed in detail. The company’s latest CPUs, based on the Zen 5 architecture, are targeted at workstations and high-end desktops (HEDT). Despite maintaining the same core counts and frequencies as the previous generation, the Ryzen Threadripper 9000-series boasts significant performance gains thanks to micro-architectural improvements, including wider core execution, enhanced cache systems, faster memory, and more efficient AVX-512 support. The flagship Ryzen Threadripper Pro 9995WX, featuring 96 cores and 192 threads, has been positioned against Intel’s Xeon W9-3595X, a 60-core, 120-thread processor. According to AMD, the Ryzen Threadripper Pro 9995WX outperforms Intel's Xeon W9-3595X by 28% to 145% across various professional workloads. These benchmarks suggest that AMD's new CPU leads in a wide range of tasks, from content creation and rendering to CAD, simulation, scientific computing, and AI workloads. In specific content creation and rendering applications, such as V-Ray, After Effects, and Maya, the Ryzen Threadripper Pro 9995WX’s performance improvements over the Xeon W9-3595X are particularly notable, often surpassing 100%. For CAD and simulation-heavy applications like Solidworks, Revit, and Keyshot, AMD's CPU offers faster modeling and rendering, with performance gains ranging from 41% to 108%. The 64-core Ryzen Threadripper 9980X, designed for HEDT and with a quad-channel memory subsystem, also outperforms the Intel Xeon W9-3595X across workstation workloads. It shows major advantages in content creation tasks, specifically achieving up to 92% faster performance in Autodesk Maya, 83% in Cinebench (nT), 22% in Adobe Premiere Pro, and 80% in Adobe After Effects. In CAD and rendering, the 9980X beats the Xeon by 41% to 108%, while in software development and scientific computing, it offers up to 65% faster compilation in Unreal Engine and 68% faster computation in MATLAB. While these benchmarks highlight the superior performance of AMD's Ryzen Threadripper 9000-series, it is important to note that they were conducted by AMD itself. This means the results may be biased and should be taken with a grain of salt. However, the comprehensive nature of the performance boosts across multiple workloads indicates that the Ryzen Threadripper 9000-series is set to be a formidable competitor in the high-performance computing market. The primary uncertainties now revolve around pricing and availability. Given the performance prowess of these new CPUs, AMD could command premium prices, potentially limiting their accessibility to a broader range of users. Industry analysts suggest that the pricing strategy will play a critical role in determining the adoption rate of these processors among professionals and enthusiasts. Despite this, the Ryzen Threadripper 9000-series is expected to become a go-to choice for those requiring top-tier performance in demanding workloads. The release of these performance figures is a significant milestone for AMD, showcasing its commitment to pushing the boundaries of workstation and HEDT computing. The company, known for its strong focus on value and innovation, has once again set the stage for a highly competitive landscape in the high-performance segment. In the broader context, AMD's Ryzen Threadripper 9000-series aligns with its strategy to offer more powerful and efficient processors that cater to the needs of professionals and high-end users. With these new benchmarks, AMD is signaling its intent to lead the market in multi-core performance and versatility. The coming months will see independent reviews and real-world testing, which will provide a more balanced perspective on the capabilities of these CPUs. Industry experts predict that the Ryzen Threadripper 9000-series will set new standards for performance in professional and enthusiast markets, particularly in tasks that require extensive parallel processing and large memory bandwidth. They also anticipate that the competition with Intel will intensify, driving further advancements in both hardware and software optimization. Companies like AMD and Intel continue to innovate and push the boundaries of what is possible with modern CPUs, benefiting the entire tech ecosystem.