Yes, same phenomenon affects all that.
Inversion artifacts are an unavoidable part of a specific monitor, as it is design. Fast-responding panels (e.g. 1ms TN panels) have more inversion artifacts because it's hard to keep the pixels stationary. With 1ms GtG, and 16.7ms between refresh cycles at 60Hz, there's plenty of time for pixels to float (deviate) from its intended GtG value, especially if the positive/negative inversion voltages are not perfectly balanced -- subtle things like ambient temperature, exact refresh rate, and contrast/brightness setting -- can even have an effect on intensity of aritfacts. How it affects that specific model, varies a lot.
For some reason, we see it more often, because at 120Hz+, the monitor limits are being pushed harder, and inversion artifacts become a bigger problem. Strobing also amplifies visiblity of inversion artifacts, as does 3D Vision use, and specific test patterns (such as these).
Side topic -- attempting to disable/defeat inversion (completely remove inversion artifacts) can unfortunately create static-electricity effects on LCD pixels -- creating LCD image retention effects (e.g.
TestUFO Flicker Test is a software-based way of defeating LCD inversion on certain models/panels....WARNING, WARNING!) when a flickering screen pattern bypasses the inversion's purpose of eliminating image retention on LCD screens.
Erasing LCD retention requires playing full screen video, playing a game, burn-in repair utilities, etc. Usually erased in less than 30 seconds for most LCD screens -- it is not like permanent plasma burn-in (for the majority of LCD displays).
Occasionally a monitor does have much more inversion artifacts (e.g. 10x more intense) than 3 or 4 identical-model monitors, and a valid warranty claim may be possible, but for the most part, inversion artifacts are very much part of monitor limitations such as TN limitations or IPS glow, etc.
And remember inversion amplifies during strobing, 3D, specific refresh rates, unusually low GSYNC refresh rates, and sometimes picture settings (contrast, overdrive, etc). You pretty much can't do much about it for a specific panel/model -- it's an ingrained design limitation. You can't warranty-claim a TN LCD into becoming OLED quality -- likewise, you can't warranty-claim inversion away unless it's unusually defective (e.g. so bad, that it really shows even in Windows Desktop & blatant versus an average-model of same monitor). From your pictures, I think your inversion is normal for that particular model (I think). I've seen 10x worse.
It has also caused resolution issues during 3D Vision too:
http://3dvision-blog.com/9009-some-3d-v ... n-3d-mode/
That's an inversion artifact interfering with 3D Vision clarity on that particular monitor.
TL;DR: Inversion does have a positive purpose -- it prevents your LCD from burning in. You'll just have to tolerate inversion artifacts.
