#無情性價比! AMD Ryzen Threadripper 3960X LINUX和WINDOWS CPU效能評測
Table of Contents
- Introduction
- Overview of the AMD Ryzen Threadripper 3960X
- CPU Benchmarks
- Linux Performance
- Kernel Compile Benchmark
- Comparisons with Second-Generation Threadripper
- Pricing and Value
- Should You Upgrade?
- Conclusion
- Resources
Introduction {#introduction}
The highly anticipated release of the AMD Ryzen Threadripper 3960X has finally arrived. In this article, we will focus on the 3960X and explore its capabilities and performance. If you are in the market for an high-end desktop (HEDT) system, this article might just change your mind about which chip to choose. We will be comparing the 3960X to other chips available in the market and conducting various CPU benchmarks to showcase its power and performance.
Overview of the AMD Ryzen Threadripper 3960X {#overview}
The AMD Ryzen Threadripper 3960X is a 24-core, 48-thread CPU with a base clock speed of 3.8 GHz and a boost clock speed of around 4.5 GHz. It is designed on TSMC's new 7 nanometer FinFET process and features PCIe Gen 4. With a recommended retail price of $1399 USD, the 3960X offers a powerful processing solution for those in need of substantial computing power.
CPU Benchmarks {#benchmarks}
Cinebench R20 {#cinebench-r20}
We first conducted Cinebench R20 benchmarks to evaluate the performance of the 3960X. The results were astounding, with the 3960X proving to be approximately 41% faster than its predecessor, the Second-generation 2970WX, in the same workloads. These results were consistent after running multiple tests, confirming the reliability and power of the 3960X.
Cinebench R15 {#cinebench-r15}
Similar results were observed in Cinebench R15, where the 3960X outperformed the 2970WX by around 36%. These benchmarks further established the significant performance advantage of the 3960X in multi-threaded workloads.
Blender Benchmarks {#blender-benchmarks}
We also conducted Blender benchmarks using both the BMW scene and classroom scene on both Windows and Linux operating systems. In Windows, the 3960X showcased impressive results, performing around 43% faster than the 2970WX in the BMW scene and around 42% faster in the classroom scene. The Linux benchmarks revealed a smaller, yet still significant, performance advantage for the 3960X. It was approximately 28% faster in the BMW scene and around 31% faster in the classroom scene compared to the 2970WX. Moreover, when comparing the Linux 3960X results to the Windows 2970WX results, the performance difference was even more pronounced, reaching 55% and 61% for the BMW and classroom scenes, respectively.
Linux Performance {#linux-performance}
Linux users will be pleased to learn that the 3960X performs exceptionally well on this operating system. It demonstrated a 12% performance advantage in the BMW scene and a remarkable 20% advantage in the classroom scene compared to its Windows performance. These results highlight the compatibility and efficiency of the 3960X with Linux, making it an excellent choice for Linux users working with resource-intensive applications like Blender.
Kernel Compile Benchmark {#kernel-compile-benchmark}
To further evaluate the processing power of the 3960X, we conducted a time-to-compile benchmark using a Linux kernel version 5.4 release candidate 3. The 3960X displayed impressive performance, averaging around 30 seconds to compile the kernel. In contrast, the 2970WX took an average of 44 seconds, making the 3960X approximately 38% faster in compile times. These results emphasize the efficiency and speed of the 3960X in resource-demanding tasks.
Comparisons with Second-Generation Threadripper {#comparisons}
When compared to its predecessor, the second-generation Threadripper lineup, the 3960X exhibits remarkable advancements in performance. The substantial improvements in multi-threaded workloads are evident in the Cinebench R20 results, with the 3960X clocking in at around 71% faster than the 2970WX. This significant performance difference is essential for users engaged in tasks such as video editing and rendering.
Pricing and Value {#pricing-and-value}
While the pricing of the motherboards and CPUs for the third-generation Threadripper series is undeniably high, the performance results justify the investment. AMD has made considerable strides in this new ultra high-end desktop market, offering a balance between price and performance. For those who require the immense processing power provided by the 3960X, the value is apparent.
Should You Upgrade? {#should-you-upgrade}
If you are currently using a first or second-generation Threadripper setup, the decision to upgrade to the third-generation 3960X depends on your specific needs. For users with a 2970WX, the performance difference may not be significant enough to warrant an upgrade. However, if you possess a 1950X and require enhanced performance, the 3960X is undoubtedly worth considering. Its superiority in multi-threaded workloads, as demonstrated in the Cinebench R20 benchmarks, showcases its value for professionals in content creation and software development.
Conclusion {#conclusion}
The AMD Ryzen Threadripper 3960X is an impressive addition to the Threadripper lineup. With its exceptional performance in CPU benchmarks and resource-intensive tasks, it sets a new standard for high-end desktop processors. While the pricing may seem steep, the 3960X offers unrivaled power and efficiency for professionals who rely on robust computing capabilities. If you require a processor that delivers uncompromising performance, the 3960X is a solid choice.
Resources {#resources}
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