![]() ![]() ParameterĮnables an on-screen display of frames presented using flip model.Įnables the built-in frame rate limiter of the display drivers at the specified FPS.Ĭontrols what mode of the frame rate limiter will be used.Ĭontrols whether the G-Sync feature will be active in fullscreen only, or in windowed mode as well. Finally click on Apply changes to save the changes.ĪnandTech - Triple Buffering: Why We Love It - Recommended reading about triple buffering/Fast Sync.If you get a message that Filename.exe already belongs to a profile, verify that the application does not exist in the Profiles list again, then re-select the executable again with the file format in the selection dialog set to Application Absolute Path (*.exe) instead of the default Application EXE Name (*.exe). ![]() Navigate to and select the game executable and click Open.Click on the Add application to current profile icon (a small window with an icon of binoculars with a "+" above it). ![]() Click on the Create new profile icon (the sun).Using the Profiles list on top of the window, select the game-specific profile if one exists.Download and run the latest version of the Profile Inspector, see Installation.We will have to see what happens in game performance up next.Select (or create if missing) the display driver profile for the game 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. It’s really not much, but it is a bigger difference than the RTX 2080 SUPER anyway. 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. Now we have the important power and temperature comparisons. ![]()
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