To measure and calibrate monitors, we use an i1Pro spectrophotometer and version 5.1.2 of SpectraCal’s CalMAN software.

For patterns, we employ an AccuPel DVG-5000 video signal generator. This approach removes video cards and drivers from the signal chain, allowing the display to receive true reference patterns. Connections are made via HDMI.

The AccuPel DVG-5000 is capable of generating all types of video signals at any resolution and refresh rate up to 1920x1080 at 60 Hz. It can also display motion patterns to evaluate a monitor's video processing capabilities, with 3D patterns available in every format. This allows us to measure color and grayscale performance, crosstalk, and ghosting in 3D content via the 3D glasses.
The i1Pro is placed at the center of the screen (unless we’re measuring uniformity) and sealed against it to block out any ambient light. The Accupel pattern generator (bottom left) is controlled via USB by CalMAN, which is running on the Dell XPS laptop on the right.
Our version of CalMAN Ultimate allows me to design all of the screens and workflows to best suit the purpose at hand. To that end, we’ve created a display review workflow from scratch. This way, we can be sure and collect all the necessary data with a concise and efficient set of measurements.
The charts show us the RGB levels, gamma response, and Delta E error for every brightness point from zero to 100 percent. The table shows us the raw data for each measurement. And the area in the upper-left tells us luminance, average gamma, Delta E, and contrast ratio. The individual charts can be copied to the Windows clipboard to easily create graphics for our reviews.
Every primary and secondary color is measured at 20, 40, 60, 80, and 100 percent saturation. The color saturation level is simply the distance from the white point on the CIE chart. You can see the targets moving out from white in a straight line. The further a point is from center, the greater the saturation until you hit 100 percent at the edge of the gamut triangle. This shows us the display’s response at a cross-section of color points. Many monitors score well when only the 100 percent saturations are measured. Hitting the targets at the lower saturations is more difficult, and factors into our average Delta E value (which explains why our Delta E values are sometimes higher than those reported by other publications).
- Planar PXL2790MW: Clarity, Performance, And Accuracy In QHD
- Packaging, Physical Layout, And Accessories
- OSD Setup And Calibration
- Measurement And Calibration Methodology: How We Test
- Results: Brightness And Contrast
- Results: Grayscale Tracking And Gamma Response
- Results: Color Gamut And Performance
- Results: Viewing Angle And Uniformity
- Results: Pixel Response And Input Lag
- Planar's PXL2790MW Gets Top Marks For Clarity And Performance



What do you seriously think that another 27" 2560x1440 60Hz monitor that is already in class with a dozen other models identical to it, deserves an award?
As for those overlord monitors, I wasn't impressed by them, mostly because I had it sitting next to a lightboost 2 120hz TN panel. Yes, the overclocked IPS panel has better colour (though that's largely negated by using it on minimal brightness in a dark room, like we've already been talking about), and it's certainly pretty and gives a lot of screen real estate... but it can't compare to a real 120Hz monitor, especially not one with a strobing backlight.
Now this sort of monitor clarity plus an OS that supports decent enlarged fonts would be really nice. Apps that scale well over a range of sizes would be even nicer. A 1000 pixel wide frame may be good for some people no matter how small it is; others of us would like at least a certain number of inches. Support all of us.
(Yes, I know that this isn't the monitor's fault. It's a poor convention in many parts of the software industry.)
QHD is not ready for gaming prime time yet, sorry folks.
Cheers!
As for those overlord monitors, I wasn't impressed by them, mostly because I had it sitting next to a lightboost 2 120hz TN panel. Yes, the overclocked IPS panel has better colour (though that's largely negated by using it on minimal brightness in a dark room, like we've already been talking about), and it's certainly pretty and gives a lot of screen real estate... but it can't compare to a real 120Hz monitor, especially not one with a strobing backlight.
When you say a real 120Hz - I don't get that. I have both 248s and Tempests and I prefer the Tempest all day every day. Monitors are clearly very subjective. Some people complain about strobing, PWm, etc. but it doesn't affect me at all. I prefer an IPS panel over a TN panel. The Tempest is a real 120hz monitor once OC'd so your comment makes little sense to me. Gaming on an IPS 1440 is much preferred and the added Hz makes the overlord the best gaming display for me.
QHD is not ready for gaming prime time yet, sorry folks.
Cheers!
Herpa Durp? QHD has been ready for "gaming prime time" for years now. Fortunately, panels are coming down in price and adoption is increasing as a result.
Your argument would be totally valid for 4K displays right now...excessively expensive, complicated input requirements, killer HW requirements. Very much a niche market.
1440p is **like** totally the new 1080p. Psshhya
It's not a real 120hz display i.e. designed for it. It has significantly more latency, and serious issues with motion blur... where a monitor designed for high refresh rates has virtually no input lag, and (if using lightboost technology set up to strobe), zero motion blur. An overclocked ips panel is still better than a non-overclocked ips panel, but I'll take a TN panel any day. The very high end TN panels look nearly as good as lower-end IPS panels, yet perform way better... and IPS panels don't handle being set to low brightness very well. I agree that IPS is superior for certain things; most notably tasks that require color accuracy. But for a gaming setup, I disagree. (Though a 1440p monitor, you're right, is a wonderful thing.)
That... is absolutely not true. Have you set your monitor up with lightboost, if you aren't using it? Have you gone into windows and your video drivers and told them to run the monitor at 120hz? Most of the time, when people say they can't see the difference between 120hz and 60hz, it's because they didn't set it up and never actually saw 120hz.
If you have it set up right, there is a VERY noticeable difference between 120hz and 60hz. Yes, 1440p is nice too, but you can't just say that one is worthless and the other isn't; I personally bought and returned a VERY nice iiyama recently, because even though it was basically the best on the market, there were notable issues with it while gaming - if there were a 1440p TN panel that didn't have all the issues that IPS panels have (yes, I know TN panels have issues of their own, but those are unimportant for gaming), then I would buy it on day one, and use it for MMOs and, say, racing games, for which a 120Hz monitor isn't as helpful, but which you still want a decent response and minimal ghosting.
For me, this is just another overpriced piece of equipment. Next.
Your argument would be totally valid for 4K displays right now...excessively expensive, complicated input requirements, killer HW requirements. Very much a niche market.
1440p is **like** totally the new 1080p. Psshhya
Well, I know there have been QHD monitors for quite some time, but they're still expensive as hell and don't offer a better "gaming experience" IMO to justify them over FHD@120/144Hz. Until QHD comes in 120/144 Hz, they won't be on my "must have" list at all. Specially with the crappy as hell colors.
Cheers!
Happy Thanks Giving!