Unleashing the Power: Ryzen 7 1700 vs 2700X Performance Comparison

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Unleashing the Power: Ryzen 7 1700 vs 2700X Performance Comparison

Table of Contents:

  1. Introduction
  2. Upgrading the CPU
  3. The Benchmarking Process
  4. Synthetic Benchmarks
    • Overview of Synthetic Benchmarks
    • Performance Comparison with Ryzen 7 1700
  5. Video Rendering Performance
    • Comparison of Video Rendering Times
    • Impact of Memory Speed on Performance
  6. Game Performance
    • Expectations for Game Performance
    • Analysis of Average Frame Rates
    • Influence of RAM Speed and Motherboard
  7. testing the CPU Coolers
    • Stress Testing with Prime95
    • Comparison of Deep Freezer and Captain 240 X RGB
    • Impact of Airflow on CPU Temperatures
    • Recommendations for Cooler Selection
  8. Conclusion
  9. Comments and Suggestions
  10. Conclusion

🚀 Upgrading the CPU

In this article, we will delve into the performance of the Ryzen 7 2700 X CPU and compare it to its predecessor, the Ryzen 7 1700. The upgrade process and its initial challenges will be discussed, followed by a detailed analysis of the CPU's performance in synthetic benchmarks, video rendering, and gaming scenarios. We will also evaluate the performance of different CPU coolers and their impact on temperatures. So, let's dive in and explore the capabilities of this powerful processor!

🔬 The Benchmarking Process

Before we proceed with the analysis, let's understand the benchmarking process used to assess the performance of the Ryzen 7 2700 X. Synthetic benchmarks were conducted to evaluate the processor's overall efficiency and compare it with the Ryzen 7 1700. These benchmarks provide valuable insights into the CPU's performance in various scenarios and help us gauge its capabilities effectively.

Overview of Synthetic Benchmarks

Synthetic benchmarks offer a comprehensive overview of a CPU's performance under different computational loads. These tests assess the processor's ability to handle complex calculations, multitasking, and other resource-intensive tasks. By running these benchmarks, we can determine the improvements offered by the Ryzen 7 2700 X over its predecessor.

📊 Performance Comparison with Ryzen 7 1700

The Ryzen 7 2700 X outperformed its predecessor, the Ryzen 7 1700, in almost all synthetic benchmarks. The advancements in architecture and clock speeds resulted in notable performance gains. When compared head-to-head, the Ryzen 7 2700 X exhibited superior performance and reduced render times, offering a significant improvement for high-intensity workloads. These results highlight the benefits of the processor upgrade.

💻 Video Rendering Performance

Apart from synthetic benchmarks, it is essential to evaluate the CPU's performance in real-world scenarios. Video rendering is a resource-intensive task that can benefit greatly from the increased processing power of the Ryzen 7 2700 X. Through extensive testing, we examined the CPU's rendering capabilities and compared it to the Ryzen 7 1700.

Comparison of Video Rendering Times

The Ryzen 7 2700 X showcased its dominance in video rendering, reducing rendering times by a remarkable two minutes compared to its predecessor. This reduction in rendering time is a testament to the CPU's improved architecture and clock speeds. Content creators and video editors can save valuable time when utilizing this highly efficient processor.

🚀 Impact of Memory Speed on Performance

In our testing, we observed that memory speed played a crucial role in the Ryzen 7 2700 X's performance. The usage of 2400 MHz RAM, which was also used with the Ryzen 7 1700, may have limited the full potential of this upgraded CPU. We recommend opting for faster RAM modules to unlock the processor's true power. Additionally, pairing the CPU with a motherboard that supports higher RAM speeds, such as the X470, can further enhance performance.

🎮 Game Performance

Gaming enthusiasts are always keen to explore the capabilities of new CPUs. With the Ryzen 7 2700 X, expectations were high for improved gaming performance. To thoroughly assess its gaming prowess, we tested the CPU with a range of popular games and examined the average frame rates achieved.

Expectations for Game Performance

Although the overall average frame rates did not see a significant increase with the Ryzen 7 2700 X, it is important to note that the choice of RAM and motherboard utilized in our testing may have impacted the results. For optimal gaming performance, we recommend pairing the CPU with faster RAM modules and considering a motherboard with enhanced features, like the X470.

Analysis of Average Frame Rates

While the Ryzen 7 2700 X demonstrated comparable gaming performance to the Ryzen 7 1700, some games, like Tomb Raider, exhibited noticeable improvements. It is important to consider the specific requirements of each game when evaluating CPU performance. The Ryzen 7 2700 X's increased clock speeds and efficient architecture contribute to smoother gameplay experiences.

Testing the CPU Coolers

To optimize the Ryzen 7 2700 X's performance, ensuring efficient cooling is vital. We conducted stress tests with different CPU coolers to analyze their impact on temperatures and overall stability. The Deep Freezer cooler and Captain 240 X RGB cooler were tested side-by-side to evaluate their effectiveness.

Stress Testing with Prime95

To attain maximum heat generation, we stressed the CPU using Prime95 for half an hour. In this test, the Deep Freezer cooler demonstrated admirable temperature management, with temperatures remaining at acceptable levels. However, the Captain 240 X RGB cooler proved less efficient, with temperatures approaching a worrisome 98 degrees Celsius, likely due to limited motherboard airflow.

Impact of Airflow on CPU Temperatures

Our testing revealed that airflow plays a crucial role in maintaining optimal temperatures, especially with motherboards like the AX370, which has a suboptimal VRM design and heatsinks primarily for aesthetic purposes. However, by employing a 60mm fan atop the VRMs, we managed to stabilize temperatures at 85 degrees Celsius. This highlights the necessity of adequate airflow when using the Ryzen 7 2700 X and recommends opting for coolers such as the Deep Freezer for improved thermal management.

Recommendations for Cooler Selection

Based on our observations, we highly recommend utilizing the included Wraith Prism cooler that comes with the Ryzen 7 2700 X. This stock cooler is capable of effectively managing temperatures without the need for an aftermarket cooler, provided that the system is equipped with faster RAM modules and a motherboard that supports higher RAM speeds. Optimal cooling, in turn, ensures consistent performance and longevity of the CPU.


In conclusion, the Ryzen 7 2700 X proves to be a significant upgrade over its predecessor in terms of performance. With enhanced clock speeds and architectural improvements, the CPU outperforms the Ryzen 7 1700 in both synthetic benchmarks and real-world scenarios such as video rendering. While the gaming performance may not exhibit a significant improvement, choosing faster RAM and an appropriate motherboard can help unlock the full potential of the CPU. Additionally, ensuring efficient cooling is essential, with proper airflow and suitable CPU coolers playing a vital role in maintaining optimal temperatures for a stable and high-performance system.

Comments and Suggestions

Your comments, suggestions, and advice are highly appreciated. If you have any insights or questions regarding the Ryzen 7 2700 X, please leave them in the comment section below. We value your input and strive to provide the most accurate and helpful information to our readers.


Thank you for reading this detailed analysis of the Ryzen 7 2700 X CPU. We hope this article has provided valuable insights into the processor's performance and its potential in various applications. Stay tuned for more informative content, and don't forget to subscribe for future updates. See you in the next one!


Q: Can I use the Ryzen 7 2700 X with my current motherboard? A: Yes, the Ryzen 7 2700 X is compatible with AM4 socket motherboards. However, for optimal performance, consider upgrading to an X470 motherboard that supports higher RAM speeds.

Q: Do I need an aftermarket CPU cooler for the Ryzen 7 2700 X? A: The Ryzen 7 2700 X comes with the Wraith Prism cooler, which is capable of managing temperatures effectively. However, if you plan to overclock or require enhanced thermal management, investing in a high-quality aftermarket cooler is recommended.

Q: How does the Ryzen 7 2700 X compare to Intel CPUs in terms of performance? A: The Ryzen 7 2700 X offers excellent performance at a competitive price point when compared to Intel CPUs. Its multi-threaded performance is particularly noteworthy, making it a compelling choice for content creators and professionals requiring high computational power.


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