Professional Screen Test Suite

What You're Looking For:

Watch for any brightness inconsistencies across the screen. Your display should show the same shade everywhere - no brighter or darker patches, especially around the edges or corners. It's like checking if paint covers a wall evenly.

Why It's Useful:

• Dead simple to understand - if the color looks uneven, something's off
• Great for catching backlight bleeding before it becomes a bigger problem
• Works on any screen type - LCD, OLED, you name it
• Takes maybe a minute but catches the most common issues right away

The Downsides:

• You really need a dark room to spot backlight bleeding - normal lighting masks it
• Some tiny variations are actually normal, so don't obsess over perfection
• Won't catch problems that only pop up with moving pictures or animations

What You're Looking For:

Get up close to your screen and scan for tiny dots that don't match the background. On a red screen, dead pixels appear as black dots, while stuck pixels might glow green or blue instead. It's tedious but worth it.

Why It's Useful:

• Absolutely essential before you commit to buying a new monitor or laptop
• Different colored backgrounds reveal different types of pixel defects
• Sometimes the rapid color changes can actually unstick a stuck pixel (no guarantees though)
• Many manufacturers have return policies specifically for dead pixels

The Downsides:

• Takes patience and careful inspection - it's not a quick glance kind of test
• Honestly, one or two dead pixels usually won't bother you in everyday use
• Super frustrating to discover issues right after your return window closes
• Can't actually fix dead pixels - this just helps you find them

What You're Looking For:

The gradient should flow like silk - no visible lines or stripes running through it. If you see distinct bands, your display might have color depth issues or cheap processing. Think of it like a sunset - you want smooth transitions, not visible steps.

Why It's Useful:

• Catches issues that solid colors completely miss
• Super important if you're into photo editing, graphic design, or anything visual
• Helps you understand what quality level you're actually getting
• Different gradient directions can reveal quirks specific to how your panel works

The Downsides:

• Budget displays almost always show some banding - it's just how they're built
• Room lighting can make banding look way worse than it actually is
• Sometimes your graphics card settings cause banding, not the screen itself
• Unless you're doing professional color work, minor banding probably won't bug you

What You're Looking For:

The moving box should have sharp, clean edges as it travels. If you see a faded shadow trailing behind it, your screen's pixels are taking too long to switch colors. Gamers especially hate this.

Why It's Useful:

• Absolutely critical for gaming, especially fast-paced shooters or racing games
• Even regular web browsing and scrolling feel smoother on fast displays
• Helps verify if your "gaming mode" setting actually does anything
• Can reveal overdrive artifacts where pixels change too aggressively

The Downsides:

• Most non-gamers honestly can't tell the difference
• Browser animation speeds can mess with the test results
• Doesn't give you precise millisecond measurements like professional tools
• Some ghosting is totally normal on regular office monitors

What You're Looking For:

In a pitch-black room, watch for glowing patches or bright streaks around the edges. A little bleeding is normal on LCDs, but excessive bleeding totally ruins dark movie scenes and nighttime gaming.

Why It's Useful:

• Crucial if you watch a lot of movies or game in the dark
• Helps you decide if a monitor's defect is bad enough to return it
• Shows how bleeding changes at different brightness levels
• Good to check when new since bleeding can actually get worse over time

The Downsides:

• Only really visible in very dark rooms - non-issue with normal lighting
• Can make you super aware of something you'd never have noticed otherwise
• OLED screens don't have this problem at all (but cost way more)
• Almost every LCD monitor has at least a tiny bit of bleeding

What You're Looking For:

Letters should have crisp, well-defined edges without looking fuzzy or having weird colored fringes around them. Small text should still be readable without squinting or leaning in.

Why It's Useful:

• Essential if you spend your whole day reading documents, emails, or code
• Higher resolution screens really show their worth here
• Helps you dial in ClearType or other font smoothing settings
• Shows whether your display scaling is set up right

The Downsides:

• Super subjective - depends a lot on your personal eyesight
• Operating system font rendering matters just as much as the display
• How far you sit from the screen changes everything

What You're Looking For:

6500K should look neutral and "white" - not warm like candlelight, not cool like a blue sky. Warmer temperatures are easier on your eyes at night, while cooler temps can feel crisper for daytime work. It's all about finding what feels right.

Why It's Useful:

• Explains why some screens feel "warmer" or "cooler" compared to others
• Helps you set up night mode or blue light filters properly
• Critical when you're trying to match colors across multiple displays
• Shows what your different preset modes are actually doing

The Downsides:

• Your eyes adapt crazy fast, so "wrong" starts looking "right" after a few minutes
• Room lighting and time of day totally change how you perceive it
• Personal preference varies wildly - there's no single "correct" temperature for everyone

What You're Looking For:

If the numbers are hard to see or you can't see them at all, you might have color vision differences. It's way more common than people think - about 1 in 12 men have some form of it.

Why It's Useful:

• Quick way to check for color vision differences you might not know about
• Helps explain why certain color combinations confuse you
• Can guide you to use colorblind-friendly palettes in your own design work
• Interesting to compare results with friends and family

The Downsides:

• Not a medical diagnosis - see an eye doctor if you're actually concerned
• Your display's color accuracy affects the results
• Lighting conditions matter a ton for accurate results
• Can be stressful if you discover an issue you didn't know about

What You're Looking For:

The dithered checkerboard pattern and solid gray square should blend together and look identical from normal viewing distance. If they look different, your gamma curve is off and images won't look quite right.

Why It's Useful:

• Makes sure shadows and highlights render the way they're supposed to
• Critical for professional photo and video editing work
• Explains why the same image can look totally different on different screens
• Helps you nail down proper calibration settings

The Downsides:

• Pretty technical concept that's hard to wrap your head around
• You need to view it from the right distance for accurate results
• Most regular folks won't notice incorrect gamma in everyday use
• Actually fixing gamma problems usually requires hardware calibration tools

What You're Looking For:

Text should be crisp and easy to read on both white and black backgrounds. Small text shouldn't strain your eyes, and patterns should look distinct without blurring together. It's all about comfortable visibility.

Why It's Useful:

• Shows whether dark mode or light mode works better on your display
• Essential for anyone who reads a lot on their screen
• Reveals if your brightness settings are dialed in properly
• Helps you understand why some websites are harder to read than others

The Downsides:

• Room lighting completely changes how contrast appears
• Your personal vision and preferences matter way more than "perfect" contrast
• High contrast can actually be fatiguing for some people

What You're Looking For:

Move your head side to side and up and down while watching the gradients. Colors shouldn't shift dramatically, and brightness should stay relatively consistent. IPS and OLED screens excel here; TN panels... not so much.

Why It's Useful:

• Critical if multiple people watch the same screen together
• Matters for artists who might lean back to view their work
• Helps explain why your laptop screen looks weird unless you're dead center
• Good for comparing display technologies before buying

The Downsides:

• If you always sit directly in front of your monitor, this doesn't matter much
• Budget monitors will always have some color shift - that's just physics
• Modern IPS and VA panels have gotten way better at this

What You're Looking For:

The moving box should have clean edges without a shadow trail following it. Some slight blur is normal, but you shouldn't see distinct ghost copies of the box trailing behind.

Why It's Useful:

• Absolutely crucial for competitive gaming where every frame matters
• Helps you test different overdrive settings on your monitor
• Explains why fast action scenes in movies can look smeared
• Different from response time but closely related - tests real motion clarity

The Downsides:

• Some ghosting is completely normal on non-gaming displays
• Your eyes track motion differently than a camera, so it might look worse in the test
• Overdrive settings that eliminate ghosting can create inverse ghosting (overshoot)

What You're Looking For:

The entire screen should look like one consistent shade with no brighter or darker patches, especially in the center. Corners might be slightly different, but the center should be uniform.

Why It's Useful:

• Reveals manufacturing quality issues before they bother you in real use
• Critical for photo editing where consistent brightness matters
• Mid-gray tones show clouding better than pure black or white
• Good reason to return a monitor if the clouding is really bad

The Downsides:

• Once you see it, you can't unsee it - ignorance is sometimes bliss
• Almost every LCD has some degree of non-uniformity
• You typically don't notice it with actual content on screen
• Uniformity can actually vary based on screen temperature after warm-up

What You're Looking For:

Lines should be sharp and well-defined, not blurry or doubled. Grid patterns should be perfectly clear, and you shouldn't see any colored fringing around the edges of lines (called chromatic aberration).

Why It's Useful:

• Helps you dial in the "sharpness" setting on your monitor's OSD
• Shows if your display cable is causing signal degradation
• Important for CAD work, graphic design, or reading small text
• Can reveal if your display scaling settings are making things blurry

The Downsides:

• Lower resolution displays will never look as sharp, and that's just math
• Too much artificial sharpening creates halos and looks worse
• Your graphics card's output settings matter just as much as the display

What You're Looking For:

The scrolling pattern should move smoothly without judder or stuttering. On high refresh rate displays (120Hz+), motion should look incredibly fluid. On 60Hz displays, you'll see more individual frames.

Why It's Useful:

• Confirms your high refresh rate monitor is actually running at its full speed
• Shows the difference between 60Hz, 120Hz, and 144Hz+ in real time
• Essential for competitive gaming where smoothness gives you an edge
• Even desktop scrolling and mouse movement feel better at higher refresh rates

The Downsides:

• Browser limitations might cap the effective test speed
• You need a powerful graphics card to actually drive high refresh rates in games
• The difference between 144Hz and 240Hz is way less noticeable than 60Hz to 144Hz
• Higher refresh rates drain laptop batteries much faster

What You're Looking For:

Each brightness level should look distinctly different from the others. Pure black should be truly black (not glowing gray), and pure white should be bright without looking washed out. The middle grays should all be clearly distinguishable.

Why It's Useful:

• Shows your display's actual dynamic range capability
• Helps you understand if your screen is bright enough for your room
• OLED displays really shine here with perfect blacks
• Good for finding the sweet spot brightness level for your eyes

The Downsides:

• LCD displays will never show true black due to backlight technology
• Ambient lighting makes a huge difference in how brightness appears
• Some displays look great in dark rooms but terrible in bright offices

What You're Looking For:

Gradients should flow smoothly like silk without visible bands or steps. The full spectrum should show rich, vibrant colors transitioning seamlessly. If you see distinct stripes instead of smooth fades, your display or graphics settings have issues.

Why It's Useful:

• Essential test for photographers and video editors
• Shows off the difference between 6-bit, 8-bit, and 10-bit color depth
• Radial and conic gradients reveal different kinds of issues than linear ones
• Good for testing whether your color management settings are working

The Downsides:

• Budget displays almost always show some banding - it's a hardware limitation
• Sometimes the graphics card causes banding, not the display
• Browser color management can interfere with accurate results
• In real-world content, minor banding rarely bothers most people

What You're Looking For:

Lines should be perfectly straight, not curved or bowed. Circles should be circular, not oval. The image should be centered on screen, and corner squares should be the same size and equidistant from edges.

Why It's Useful:

• Helps you adjust your monitor's position and geometry settings
• Important for design work where proportions need to be accurate
• Shows if your monitor is displaying the correct aspect ratio
• Can reveal if your display scaling is distorting the image

The Downsides:

• Modern digital displays rarely have geometry issues unlike old CRT monitors
• Sometimes it's your desk or monitor arm causing tilt, not the display
• Overscan settings can throw off alignment on some displays

What You're Looking For:

In the 256-level test, transitions should be nearly invisible - it should look like a continuous gradient. In the stepped versions, each step should be clearly distinct from its neighbors without blending together.

Why It's Useful:

• Tests the fundamental ability to show tonal gradations
• Critical for black and white photography and grayscale artwork
• Shows if your display has proper bit depth support
• Reveals gamma curve issues that affect how shadows and highlights render

The Downsides:

• Human eyes can only distinguish about 200 shades, so perfect 256-level reproduction is overkill
• Viewing angle and room lighting affect how many steps you can actually perceive
• This is more of a technical test - most people won't notice these subtle differences

What You're Looking For:

On a good display with proper bit depth, these gradients should look smooth. On lower-end displays, you'll see distinct bands or stripes, especially in the near-black gradient. It's most visible in dark scenes.

Why It's Useful:

• Separates true 8-bit or 10-bit panels from 6-bit panels with dithering
• Explains why some displays show ugly banding in movie night scenes
• Critical for professional color work and HDR content
• This is one area where you really do get what you pay for

The Downsides:

• Budget displays will always show banding - there's no fix without buying a better panel
• Most content you watch isn't mastered carefully enough for this to matter
• Dithering tricks can make 6-bit panels look pretty decent in real use
• Very few people can even perceive the difference between 8-bit and 10-bit

What You're Looking For:

True HDR displays should show blindingly bright whites that really pop, while maintaining deep blacks. The radial gradients should transition from brilliant center highlights to rich shadows without washing out or clipping.

Why It's Useful:

• Tests whether your "HDR" display actually delivers real HDR performance
• Shows peak brightness capability - essential for HDR content
• Good for comparing DisplayHDR 400, 600, and 1000 certifications
• Reveals the difference between proper HDR and fake marketing HDR

The Downsides:

• Most "HDR" displays are barely brighter than SDR displays - it's mostly marketing
• True HDR (1000+ nits) is eye-searingly bright and not comfortable for desktop work
• HDR needs proper content and calibration to actually look good
• Windows HDR support is still janky and inconsistent

What You're Looking For:

The 100% samples should look vibrant but natural, not cartoonish. Lower saturations should look subtle and refined, not muddy. Higher saturations should be intense without looking radioactive or clipped.

Why It's Useful:

• Tests whether your "vivid" or "saturated" display mode is too aggressive
• Shows if your display can render subtle, desaturated colors properly
• Important for design work where color accuracy matters
• Helps you understand why some displays look "punchy" and others look "flat"

The Downsides:

• Most people prefer slightly oversaturated displays - they look more exciting
• Accurate saturation can actually look boring compared to boosted saturation
• Different display modes often trade saturation for brightness
• What looks "right" is highly subjective and culturally influenced

What You're Looking For:

Skin tones should look natural and alive, not orange, pink, green, or gray. Each skin type should show natural variation without looking artificial. This is one test where you trust your gut - if it looks off, it probably is.

Why It's Useful:

• Critical for portrait photography and video editing
• Shows if your display leans too warm (orange) or too cool (pink/magenta)
• Tests color balance better than abstract color patches
• Humans notice bad skin tones instantly, even non-technical folks

The Downsides:

• Showing skin tones as flat color patches isn't how we actually perceive skin
• Lighting, texture, and context massively affect how skin tones look
• What looks "natural" varies by culture and personal experience
• Many displays deliberately boost reds and oranges to make skin look healthier

What You're Looking For:

Black squares should stay truly black even next to white squares. On LCD displays, you'll often see the black squares look grayish because the backlight bleeds. OLED displays ace this test with perfect blacks everywhere.

Why It's Useful:

• More realistic than testing all-black screens in isolation
• Shows how contrast performs with mixed content like subtitles on dark movies
• Reveals the weakness of LCD backlights versus OLED's per-pixel lighting
• Good for comparing full-array local dimming versus edge-lit displays

The Downsides:

• LCD technology fundamentally can't pass this test perfectly - it's a physics problem
• Your eyes adapt and you probably won't notice this in normal content
• Only really matters if you watch a lot of letterboxed movies in the dark

What You're Looking For:

You should be able to see individual lines in the line pair patterns down to very fine sizes. Text should be sharp at all sizes. The crosshairs and targets should have clean, defined edges without blurring or color fringing.

Why It's Useful:

• Professional standard test used in display reviews and calibration
• Objectively tests resolution capability and sharpness
• Shows sub-pixel rendering quality for text
• Good for comparing displays with the same resolution spec but different quality

The Downsides:

• Pretty technical and not particularly user-friendly
• Resolution is mostly determined by pixel count, which you already know
• Browser scaling can mess with the test results
• Unless you're doing professional calibration, simpler tests work just as well

What You're Looking For:

The primary colors (pure red, green, blue) should look vibrant and rich but not oversaturated. Secondary colors (yellow, cyan, magenta) should be clearly distinct. The reference white and gray should look neutral, not tinted.

Why It's Useful:

• Tests whether your display covers the standard color space properly
• Important for design work that needs to match across devices
• Shows if your "wide gamut" display is oversaturating sRGB content
• Good baseline test for color accuracy before professional calibration

The Downsides:

• Most people prefer slightly oversaturated colors - accurate sRGB can look dull
• Wide gamut displays showing sRGB content need proper color management
• Browser color management is inconsistent across browsers and operating systems
• Many displays deliberately go beyond sRGB because it looks more exciting