What I´m aiming for is finding the maximum frequency for every voltage which is in the range of being hit on loads.
My most chill way to test for stability was with using 3DMark´s Stress test, FireStrike and TimeSpy (2 displays are needed – One Display with stresstest open and the other one with MSI AB open)
3DMark benches do stop when you alt tab out. Other games, benches or alike will go down with fps and load when being in background, Hence avoid alt tabbing during benchmarks
Consequent Alt TAB will make the GPU switch over to a higher frequency when being on load after a short time.
So with non constant load and consistent Alt TAB might need to wait this out every time depending on how fast you are.
You have applied a certain curve . After some time on load (sometimes seconds on me sometimes close to one minute) this whole curve will be shifted up by 30Mhz.
This means when you are testing clocks on load and type the exact same clocks later in the curve when being in idle the load, clocks will be 30Mhz higher leading to instabilities
The frequency steps are a bit annoying too. It´s mostly 7. Sometimes 8 in mine. The load curve shift is mostly 30. Sometimes 29.
Because of this you have to find out the exact clocks you are using in the curve later on. If you type another number it is gonna be changed to a number available from the steps.
This might lead to instabilities too if not taken care of. You can read out these numbers easily thru OSD. Just write them all down so you know each step you went across.
Follow the above mentioned steps until you reach around 0,85V. Because at this voltage you will start to get tdp throttling in certain loads.
Further stability testing is really time consuming and should be happening over time when gaming. Because you will hit tdp throttling very often at above 0,85V the voltage will fluctuate by a lot.
Most modern games will make very good use of 0,85V maxing out closely around it and you will already have close to max performance.
— Tidles0