We will have to see what happens in game performance up next. However, these differences are so small that other than the Idle Wattage, it doesn’t really make a noticeable difference. Overall, the RTX 2060 SUPER seems to be affected by the power modes slightly more than the RTX 2080 SUPER. The total system Wattage also has a 3-Watt variance. Plan Settings -> Change Advanced Power Settings -> Processor Power Management.
It’s really not much, but it is a bigger difference than the RTX 2080 SUPER anyway. Self-Adaptive Fan Tuning CPU temperature detectionThe fans speed adjusts. We see a 3-Watt difference between GPUz Power Consumption numbers between Optimal Power, Maximum Performance and Adaptive. It goes from 58W up to 91W, a very big difference for sure. We also see a big difference in Idle power when using Prefer Maximum Performance. It’s not really much, but the RTX 2080 SUPER was a lot closer in differences. We do see a 2-degree difference though between Optimal Power and Prefer Maximum Performance. The GeForce RTX 2060 SUPER results are mostly similar. Using Optimal Power and Adaptive over Prefer Maximum Performance will indeed help you a great deal on Idle power. It appears that on this video card the only figure that was affected was the Idle Wattage. Then we look at the green bar which is the peak total system Wattage it also looks the same. It also all looks the same between the power modes. Next, we have the yellow bar which is the GPUz board power. However, at Prefer Maximum Performance it skyrockets to 103W just sitting there idle. In Optimal Power and Adaptive, it is similar at 61W. However, the power modes do directly affect the blue bar, the total system Idle Wattage. We see no differences in GPU temperature between the different power modes, none of them seemed to affect the GPU temperature at full-load while gaming. The orange bar represents GPU Temperature. Let’s start at the bottom and work our way up. Finally, the orange bar at the bottom represents the GPU Temperature in Celsius. The blue bar below that represents the Idle total system Wattage. The yellow bar below that one represents the GPUz Power Consumption board power result. The green bar at the top will represent the total system Wattage at full-load. We are going to show one graph per video card that contains all the temperature and Wattage information in one place. Thanks.ĮDIT: Only solution seems to be the workaround I was using as seen in omano’s post.Now we have the important power and temperature comparisons.
#NVIDIA POWER MANAGEMENT MODE ADAPTIVE HOW TO#
Troubleshooting Manjaro has been my life for the past month or so so if I’m forgetting any information to include please ask, my system should be public on my profile and forgive me if I don’t know how to format, I haven’t used a forum since 2006.
I’ve looked through this forum to issues similar to mine but it seems like nobody has an answer, only potential solution is a workaround.
#NVIDIA POWER MANAGEMENT MODE ADAPTIVE DRIVER#
Single GPU system with dual 2560x1440p monitors on Kde Plasma with latest proprietary Nvidia driver I cannot find a wiki for nf’s options so this is all I have to go on. "Option “RegistryDwords” “PowerMizerEnable=0x1 PerfLevelSrc=0x3322 PowerMizerDefault=0x2 PowerMizerDefaultAC=0x2"” Changing nf manually in the X11 folder has worked for me on mostly every other nvidia-settings configuration. I’ve saved settings throughĪnd saving to /etc/X11/mhwd.d. The only thing I couldn’t resolve was having my gpu set to “Performance” mode instead of adaptive in the nvidia-settings gui. I’ve done a plethora of things over the past month trying to get nvidia settings to persist on reboot.
0 kommentar(er)
