Ryzen 1200 3.7GHz oc
Ryzen 1200 3.7GHz oc
Hello! Your overclocking settings sound solid—3.7 MHz at 1.275V with an asRock AB350M-HDV motherboard. After running AIDA64 for about 40 minutes, your CPU temperatures stabilized around 45°C and then dropped to 66°C on the package, followed by a return to 58-59°C. Your current core voltage of 1.29 is within a reasonable range for testing. You might want to continue monitoring and run more tests to confirm stability before finalizing.
This OC provides solid performance for voltage and high temperatures. Using Prime95 with short FFTs for extended runs helps assess stability. Checking maximum temperatures and thread failures is essential. If temps exceed 80°C, it’s too high. Generally, aiming for under 80°C gives the best results. Your CPU voltage is acceptable at 1.275V. At 1600x MHz, stable operation requires adjusting to around 1.375V. Temperatures above 82°C are undesirable. You have more flexibility if you stay below that threshold. Good work.
This OC provides a solid foundation for stable voltage and high temperatures. For consistent results, I run Prime95 with short FFTs for over an hour, checking maximum temperatures and thread stability. If any thread exceeds 80°C, it’s considered too high. Based on your setup, you’re expected to stay under 80°C, which is ideal for your OC. Your 1600x model runs at 3.9°C at 1.3V, but pushing to 4GHz would require a jump to 1.375V to maintain stability—temperatures then exceed 82°C, which is not desirable. I prefer keeping it below 80°C for optimal performance. Your CPU temperature reading of around 66°C during stress tests is normal; the slight dip back to 58-59°C suggests good thermal behavior. Overall, you’re doing well.
Opening to 66-67 during hwinfo stress testing would be under a Ryzen balanced Windows Plan B.
The process reaches 66-67 under hwinfo during stress testing, while using a Ryzen balanced Windows plan. I switched to the high performance power plan just to confirm. I don’t particularly like or rely on AIDA; mainly because it’s a paid application with some data removed. Secondly, it doesn’t trigger instabilities in voltage like Prime95 does. For maximum voltage stability, Prime95 is effective for my OC, and fortunately I experience no shutdowns or BSODs during full load. If testing, I’d ensure HWinfo and HwMon are open before starting the stress test. Close all other applications, pause background tasks, run Prime with small FFTs, and let it operate for an hour. Monitor temperatures—any thread failures indicate a need for higher voltage. Increase it slightly and retest until all threads function without errors for an hour. Usually, once stable, I leave it running overnight to be certain. That’s when I’m satisfied.
I'm planning to use prime95, as one of my friends shared an AIDA code with me.
Hmm, I'm hoping it's genuine. Maybe a moderator could close this thread. Tom doesn't back piracy, and I don't either.
Be careful when using pirated software—let's all help support real app developers.
The program comes from Aida and isn't infringing on any rights.