AMD Threadripper PRO 7995WX: Breaking Records and Redefining Performance in the Cinebench Benchmark


AMD sets a new standard with the Threadripper PRO 7995WX CPU. This powerhouse shatters the Cinebench benchmark record by scoring over 200,000 points. It marks a significant leap over previous record holders, including EPYC Genoa and Intel Sapphire Rapids. The Threadripper PRO 7995WX not only achieves this milestone but does so with remarkable power efficiency, consuming less energy than its rivals.

The Threadripper PRO 7995WX stands out for its impressive multi-threaded performance. It boasts up to 96 cores and 192 threads, offering unmatched processing power in the high-end desktop (HEDT) and workstation market. Its exceptional capabilities extend to various tasks, from complex computational workloads to demanding rendering tasks.

This article will delve into the technical specifications of the 7995WX, its record-setting performance in Cinebench, and the implications for both workstation users and gamers. We will explore how this groundbreaking CPU redefines what's possible in computing performance.

Technical Specifications and Performance Insights

The AMD Threadripper PRO 7995WX CPU represents a paradigm shift in high-end desktop and workstation computing. It features 96 cores based on the Zen 4 core architecture and 192 threads. This configuration is pivotal for tasks demanding high computational throughput. The CPU operates at a base clock speed of 2.50 GHz, scaling up to 5.15 GHz under boost conditions. With 384 MB of cache and support for up to 128 PCIe Gen 5.0 lanes, it stands as a formidable choice for professional workstations.

One of the most striking aspects of the 7995WX is its multi-threaded efficiency. This efficiency stems from its ability to handle numerous parallel tasks effectively, a critical factor in applications like 3D rendering, complex simulations, and video editing. The Threadripper PRO 7995WX outperforms its predecessors and competitors, particularly in multi-threaded environments, offering a level of efficiency previously unseen in the workstation CPU market.

Power consumption is another area where the 7995WX excels. Despite its high core and thread count, the CPU maintains a competitive edge in power efficiency. It peaks at around 1600W under extreme load conditions, notably less than the Intel Xeon W9-3495X, which draws almost 1900W. This efficiency does not come at the cost of performance. The Threadripper chip is over 50% faster than its Intel counterpart in benchmark tests like Cinebench R23.

Overclocking capabilities further enhance the appeal of the 7995WX. Enthusiasts and professionals can push the CPU beyond its standard specifications, achieving even higher performance levels. This is particularly useful in scenarios where every bit of processing power counts. With the appropriate cooling solutions, the 7995WX has demonstrated its ability to sustain high performance under overclocked conditions, breaking records in various benchmarks.

In short, the AMD Threadripper PRO 7995WX stands as a testament to AMD’s engineering prowess, offering a blend of high core and thread counts, exceptional multi-threaded efficiency, and prudent power consumption. Its ability to be overclocked for even greater performance cements its position as a top choice for professionals seeking the pinnacle of CPU technology.

Overclocking Feats and Benchmarks

The AMD Threadripper PRO 7995WX set new standards in an overclocking event held in October. ASUS's in-house overclocker, Elmor, pushed the CPU to an unprecedented 6 GHz across all 96 cores. The feat utilized LN2 (liquid nitrogen) cooling and ASUS's WS TRX50-SAGE WIFI motherboard. This setup enabled the 7995WX to achieve a Cinebench R23 score of 201,501 points. This score not only broke previous records but also made the Threadripper the first CPU to surpass the 200K mark in Cinebench.

The overclocking performance of the 7995WX is remarkable when compared to Intel's Xeon CPUs. For instance, the Intel Xeon W9-3495X, under similar extreme conditions, achieved a Cinebench score significantly lower than the Threadripper's. Despite drawing almost 1900W of power, the Xeon CPU lagged behind in performance, underscoring the superior efficiency and capability of the AMD chip.

Cooling plays a crucial role in such high-performance scenarios. The use of LN2 cooling for the Threadripper was essential in maintaining stable temperatures under the immense load of a 6 GHz overclock. This type of cooling is critical in professional overclocking environments, where maintaining optimal temperatures is key to achieving and sustaining high performance.

The motherboard choice also significantly impacted the overclocking success. The ASUS WS TRX50-SAGE WIFI motherboard, known for its robust build and support for high-end CPUs, provided the necessary stability and power delivery for the Threadripper PRO 7995WX. This combination of high-quality cooling and motherboard hardware allowed the 7995WX to reach and maintain its record-breaking performance.

Overall, the overclocking achievements of the AMD Threadripper PRO 7995WX, supported by advanced cooling techniques and a reliable motherboard, not only demonstrate its raw power but also its superiority over competitors like Intel's Xeon CPUs in extreme performance scenarios.

Implications for Workstation Users and Gamers

The benchmark achievements of the AMD Threadripper PRO 7995WX hold significant implications for workstation users. Professionals in fields like 3D rendering, video editing, and scientific computing will find the 7995WX's performance transformative. Its ability to handle intensive multi-threaded tasks with ease translates into reduced render times and enhanced workflow efficiency. The CPU's high core and thread count, combined with its power efficiency, make it an ideal choice for demanding workstation environments.

Gamers, particularly those engaged in high-resolution gaming, will also see benefits from the 7995WX, albeit indirectly. While mainstream AMD and Intel CPUs remain preferable for most gaming builds, the 7995WX demonstrates capabilities in GPU-bound scenarios, like high-res gaming, where CPU performance can become a bottleneck. In such cases, the difference in gaming performance between the Threadripper and mainstream CPUs becomes less noticeable, showcasing the versatility of the 7995WX.

The introduction and success of the AMD Threadripper PRO 7995WX suggest a significant impact on future CPU designs and market dynamics. AMD's achievement sets a new benchmark for what is achievable in terms of performance and efficiency, pushing the boundaries of existing CPU technology. This advancement is likely to spur competition, leading to more innovative designs and potentially reshaping the high-end CPU market.

To conclude, the AMD Threadripper PRO 7995WX is not just a record-breaking CPU in terms of benchmark scores; it is a harbinger of the future direction of CPU technology. Its impact will be felt across various user segments, from professional workstation users to gamers seeking the ultimate in high-res gaming performance. The 7995WX stands as a testament to AMD's commitment to pushing the limits of CPU technology, setting the stage for exciting developments in the computing world.

About author

Kelvin Maina

Kelvin Maina is a dedicated content creator. He has a Bsc. Computer Science, and has worked for companies such as, and as a financial research analyst. At Shortfi, he mostly focuses on the latest technologies, gadgets, and technologies companies making progress in advancing humanity through innovation.

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