The hard test.Screenshot: Alex Cranz (X-Rite)

Let's talk about how you're perceiving color. The idea came to me when a coworker asked if they should get the computer with 100-percent sRGB or 100-percent Adobe RGB, which displays more shades of green. I jokingly told him to take this X-Rite color perception test to see if he could even perceive color well enough for the more expensive Adobe RGB display. He could—but some people can't!

The people producing everything from your TV to your phone display are competing to try to produce more colors more accurately. Which means that now, more than ever, it's a good idea to know how well you perceive color. If you're colorblind or have a color perception deficiency you may not need to worry as much about claims of wider color gamuts.

If you're any a hurry you can take the test above, which has you arrange 40 colored blocks along four rows in order of hue. But if you want to really test out your eyeballs and see where your own deficiencies lie, take this much harder test that has you match 72 blocks of color by hue.

The easy test.Screenshot: Alex Cranz (X-Rite)

With either test, a "0″ score suggests you have perfect color vision, but in the second test it's a lot harder to get that score. In fact not one person in the Gizmodo office could get it on their first try. This comes down to a few factors.

First there's simple eye fatigue. Staring at the test for a long period of time is going to wear your eyes out and make it hard for them to see differences in the hue of the blocks.

Next there's the limitations of those rods and cones in your eyes that let you see stuff along the color spectrum from red to green to blue. Human vision tends to perceive some colors—specifically those along the red and green spectrum—a lot better than other colors (like those along the blue). This is why we get grossed out when skin tones are reproduced too poorly on a TV or the green of grass seems unnaturally too green in an image. It's also why we like displays with more blue in them—even when they're inaccurately reproducing colors. We have more trouble seeing the blue so it is often more pleasing to our brains!

But because our eyes have more difficulty with colors along the blue spectrum, it can make matching the blocks with more blue in them more difficult. And if you have a color perception deficiency it will be even harder. X-Rite even claims that cismen tend to have more difficulty differentiating colors than ciswomen, with one out of every 255 women and one out of every 12 men having some kind of deficiency in color perception.

The third issue probably isn't as common and relates to your display. Different types of displays produce color differently. OLEDS, LEDS, and quantum dot displays all have their own unique signature on the color spectrum. As these displays improve and recreate more colors, they become more exact with their color reproduction. That's really good! But it also means that some displays, particularly quantum dot ones, can be almost too good and the color they produce is on so narrow a spectrum that you and I might see the same color differently.

Here's how I wrap my head around the concept: I think about a very thin line and how that line can sort of look wider or narrower depending on where I'm sitting. Color can be the same way (it's something called metamerism). If the part of the spectrum the color is produced on is too narrow, you and I may see it differently, which could fudge our results with the test above.

If you find yourself netting an easy "0″ score then go ahead and splurge on the fancy displays. But if you're failing either test, then… maybe you don't need to be as excited about the new world of wide color gamut displays.