Resolved: Gaming laptop experiences intermittent frame rate fluctuations.
Resolved: Gaming laptop experiences intermittent frame rate fluctuations.
Understood. Alternatively, you can attempt to reduce the voltage supplied to the processor. Numerous tutorials are available online detailing this process. Laptop undervolting tutorial (Intel/Nvidia) THIS RESOURCE HAS BEEN RELOCATED: https://genexisx.blogspot.com/2019/09/la...vidia.html Hello everyone. Welcome to my tutorial on how to lower the voltage of Intel CPUs / Nvidia graphics cards in laptops. Please be aware of a few important points before starting: 1. This is my unique approach for accomplishing this. There are various...
Actually, I had previously completed that task; nevertheless, my processor’s minimum voltage adjustment is limited to -50 millivolts, whereas many portable computer processors are capable of reaching -150 millivolts.
That’s awful.
There isn't much more we can do except that, and a cooling pad.
The observed dual dips in CPU utilization correspond with instances of frame rate decline. Notably, the processor’s clock speed increases slightly during these FPS drops, and this consumption reduction does not manifest when utilizing the AIDA64 stress test.
I hadn’t conducted any performance tests on that chart. The graph I presented was taken while I was gaming Assetto Corsa. During the stress test, the processor wasn’t showing any reduction in its workload, however, significant temperature limiting occurred.
Laptop cooling will typically be limited due to its compact design.
It’s advisable to check that your cooling system's path isn't blocked by debris.
Within Windows power settings, examine the effect on gaming performance when you reduce your CPU's maximum usage from 100% to 80%.
Despite attempting to restrict the processor to 80% utilization, there was minimal effect on the in-game frame rate; however, both the frame rate decrease and CPU usage reduction persisted. I recently acquired a laptop cooling pad, which did slightly lower the temperature, yet the FPS decline continued to occur.
Using GPU-Z, I assessed the graphics card's performance and observed a sharp decrease in GPU clock rate, memory controller activity, bus interface load, and VDDC voltage. The PerfCap status also shifted to inactive during this decline.
Notably, the value remained consistent throughout the drop, suggesting it was fixed at a certain level. For example, the GPU clock speed decreased from approximately 1500 MHz to a stable 960 MHz.
Let’s examine the CPU activity. If temperatures are within acceptable limits, are any processor threads consistently utilizing a large percentage of their capacity? The GPU won't be operating with maximum intensity if the CPU is primarily inactive. Switching to another application to view GPU-Z will also result in reduced GPU load.