i7-4790k Gigabyte z97MX gaming 5 is a powerful gaming processor designed for high-performance tasks.
i7-4790k Gigabyte z97MX gaming 5 is a powerful gaming processor designed for high-performance tasks.
Hello, I recently installed my computer and upon turning it on without touching anything, it was running at 4.4ghz (I didn’t adjust any settings in the BIOS). When I attempted to increase it to 4.6ghz without changing the voltage (which remained below 1.2v), the machine shut down when idle. After adjusting the voltage to 1.24 and setting the base clock to 4.6, it functioned properly in the BIOS. I could observe the clock speed at 4600 and voltage at 1.248. However, during startup, the clock remains stuck at 3.9ghz. Could anyone assist me with this issue? I also checked my CPU-Z file here: http://oi63.tinypic.com/2cr8uj8.jpg
It would be helpful to reset your bios to default configurations, ensure the latest bios version is installed, and dedicate time to understanding your system's operations rather than merely changing settings. This approach prevents unnecessary hardware strain. The 4.4Ghz you observed represents the peak turbo speed, a brief spike during heavy tasks or startup when processes initialize. It isn't a continuous overclock but a standard temporary increase; it differs from intentional overclocking. If you wish to master this process correctly, becoming familiar with the relevant aspects is essential before gradually progressing toward a stable overclock, testing incrementally...
It would be helpful to reset your bios to the default configuration, ensure you have the latest bios version installed, and dedicate some time to understanding your system instead of merely changing settings. This approach helps avoid hardware strain. The 4.4Ghz speed you observed was the peak turbo setting, a brief spike during heavy tasks or startup when all processes are loading. It’s not a continuous overclock and isn’t the same as intentional overclocking. If you wish to learn proper methods, become familiar with the following resources and gradually progress toward a stable overclock, testing for stability and thermal limits. Quick fixes often lead to failure.