Unlock the Potential: Ryzen 2200G Overclocking Guide and Performance Benchmarks

Table of Contents

1. Introduction
2. Unfinished Business: Explaining the 2200 G Build
3. Overclocking the Memory
4. Overclocking the System-On-Chip Voltage
5. Overclocking the 2200 G Processor
6. testing Stability with Cinebench
7. Overclocking the Vega 8 Graphics
8. Benchmark Results and Performance Gains
9. Pros and Cons of Overclocking the 2200 G
10. Final Thoughts and Conclusion

🏁 Introduction

Welcome back to Craft Computing! In this article, we will be diving into the world of PC overclocking and specifically addressing the 2200 G build. There has been confusion and debate surrounding the use of a GTX 1050 in a budget system and whether or not to overclock the 2200 G on a B350 motherboard. It's time to set the Record straight and explore the possibilities of maximizing performance with this impressive chip.

🏁 Unfinished Business: Explaining the 2200 G Build

In the previous video, I showcased a 2200 G build with two different options at two price points. The $500 build featured the Vega 8 integrated graphics, providing immediate gaming capabilities. On the other HAND, the $650 build incorporated a GTX 1050, delivering significantly better performance and surpassing 60 FPS at 1080p in every Game tested. The purpose was to demonstrate the differences between the two options and showcase the value of the 2200 G CPU.

🏁 Overclocking the Memory

To start our overclocking journey, we first need to tweak the memory settings. Most memory kits can handle an overclock of around 200 MHz. It is recommended to test stability, so if your memory is currently at 2666 MHz, try increasing it to 2800 MHz. If you have a 3000 MHz kit, push it to 3200 MHz. Beyond that, stability issues may arise. So, let's boost our memory overclock while ensuring stability.

🏁 Overclocking the System-On-Chip Voltage

One limitation with the 2200 G is that the system-on-chip voltage cannot be overclocked through the Windows environment. We have to access the BIOS to make this adjustment. By increasing the voltage from 1.1V to 1.2V, we provide the CPU with a little extra power to work with. Be cautious not to exceed the recommended maximum voltage of 1.45V to avoid potential damage.

🏁 Overclocking the 2200 G Processor

Now, let's dive into overclocking the 2200 G processor. With Ryzen Master software, we can easily adjust the clock speed and core voltage. Starting with a conservative overclock of 3750 MHz and 1.4V, we can test stability using benchmarks like Cinebench. If successful, we can push the limits further, increasing the clock speed in small increments.

🏁 Testing Stability with Cinebench

Cinebench is a valuable tool for assessing stability after overclocking. By running the multi-core test, we can gauge if our overclock settings are reliable and in line with expectations. Remember, not all CPUs will reach the same overclock frequencies. Most 2200 G CPUs settle between 3.8 and 3.9 GHz. It's essential to find the sweet spot for your specific chip.

🏁 Overclocking the Vega 8 Graphics

With the CPU overclock dialed in, it's time to explore the possibilities of overclocking the Vega 8 integrated graphics. Starting with a stock speed of 1300 MHz and a voltage of 1.1V, we can gradually increase the clock speed and voltage to achieve optimal performance. However, it's crucial to keep the voltage as close to 1.2V as possible to prevent excessive heat buildup.

🏁 Benchmark Results and Performance Gains

Now, let's evaluate the benchmark results and analyze the performance gains achieved through overclocking. By pushing the Vega 8 graphics to 1600 MHz and adjusting the voltage, significant improvements of 35 to 40 percent can be observed. These findings demonstrate the untapped potential of the 2200 G build and the value of overclocking.

🏁 Pros and Cons of Overclocking the 2200 G

As with any overclocking endeavor, there are pros and cons to consider. On the positive side, overclocking the 2200 G can unlock remarkable performance gains, allowing for smoother gameplay and faster processing speeds. However, it is essential to factor in the potential risks such as increased heat generation, higher power consumption, and the possibility of damaging the CPU if not executed carefully.

🏁 Final Thoughts and Conclusion

In conclusion, the 2200 G build provides excellent value, even at the $500 price point. By adding a graphics card or overclocking the integrated Vega 8 graphics, gamers can achieve impressive 1080p gaming performance. Exploring the capability of the 2200 G through overclocking allows users to maximize performance and experience a significant boost in overall system responsiveness.

That wraps up our exploration of the 2200 G build and the art of overclocking. If you have any comments or questions, please leave them down below. Don't forget to like the video, subscribe to our Channel, and check out our other content. Thank you for joining us, and we'll see you soon!

Highlights

• Exploring the potential of the 2200 G build
• Overclocking the CPU and integrated graphics
• Achieving significant performance gains in gaming
• Considering the pros and cons of overclocking
• Understanding the value of the 2200 G build

FAQs

Q: Is overclocking the 2200 G worth it? A: Overclocking the 2200 G can provide significant performance gains, especially in gaming. However, it's important to consider the potential risks and ensure proper cooling and voltage management.

Q: Can I overclock the memory without overclocking the CPU? A: Yes, it is possible to overclock the memory separately from the CPU. However, keep in mind that the overall system performance may not see a significant improvement without overclocking the CPU as well.

Q: What are the maximum recommended voltages for overclocking the 2200 G? A: It is recommended not to exceed 1.45V for the CPU and not go higher than 1.3V for the integrated graphics to avoid potential damage to the components.

Q: Will overclocking the 2200 G increase power consumption? A: Yes, overclocking typically increases power consumption as the components work harder to achieve higher frequencies. Ensure that your power supply can handle the increased demand.

Q: Can I use a stock cooler for overclocking the 2200 G? A: While a stock cooler can handle mild overclocks, it's recommended to invest in a more robust cooling solution, such as an aftermarket CPU cooler, especially for higher overclocking frequencies.