gaming lcd screen free sample

The best gaming monitor will probably outlive your PC"s other components, and as a window to your gaming experience it"s one peripheral to avoid compromising too much on. Cyber Monday gaming monitor(opens in new tab) deals are available now, so it"s a good time to go display shopping.

For the competitive gamer who values speed above all else, check out our list of high refresh rate monitors(opens in new tab) , which run at 240Hz and even 360Hz. I"ve been constantly testing gaming monitors through my career and have made sure that only the best for each budget have crept onto this guide. It"s extensive, but there are a whole lotta gaming monitors out there, and plenty deserve your attention. This list is updated frequently as newer models pass the rigorous PC Gamer testing ringer.

OLED has truly arrived on PC, and in ultrawide format no less. Alienware"s 34 QD-OLED is one of very few gaming monitors to receive such a stellar score from us, and it"s no surprise. Dell has nailed the OLED panel in this screen and it"s absolutely gorgeous for PC gaming. Although this monitor isn’t perfect, it is dramatically better than any LCD-based monitor by several gaming-critical metrics. And it’s a genuine thrill to use.

Still, there’s so much depth, saturation, and clarity to the in-game image thanks to that per-pixel lighting, but this OLED screen needs to be in HDR mode to do its thing. And that applies to SDR content, too. HDR Peak 1000 mode enables that maximum 1,000 nit performance in small areas of the panel but actually looks less vibrant and punchy most of the time.

HDR 400 True Black mode generally gives the best results, after you jump into the Windows Display Settings menu and crank the SDR brightness up, it looks much more zingy.If you"re going to hook your PC up to a high-end gaming monitor, we recommend it be this one.

While we didn’t sense any subjective issue with this 175Hz monitor, there’s little doubt that if your gaming fun and success hinges on having the lowest possible latency, there are faster screens available. You can only achieve the full 175Hz with the single DisplayPort input, too. The Alienware 34 QD-OLED"s response time is absurdly quick at 0.1ms, however, and it cruised through our monitor testing suite. You really notice that speed in-game, too.

There"s no HDMI 2.1 on this panel, however. So it"s probably not the best fit for console gaming as a result. But this is PC Gamer, and if you"re going to hook your PC up to a high-end gaming monitor, we recommend it be this one.

4K gaming is a premium endeavor. You need a colossal amount of rendering power to hit decent frame rates at such a high resolution. But if you"re rocking a top-shelf graphics card, like an RTX 3080(opens in new tab) or RX 6800 XT(opens in new tab) then this dream can be a reality.

The LG UltraGear is the first 4K, Nano IPS, gaming monitor with 1ms response times, that"ll properly show off your superpowered GPU. Coming in with Nvidia G-Sync and AMD’s FreeSync adaptive refresh compatibility, this slick slim-bezel design even offers LG’s Sphere Lighting 2.0 RGB visual theatrics.

While it does suffer from a little characteristic IPS glow, it appears mostly at the screen extremities when you’re spying darker game scenes. This isn"t an issue most of the time, but the HDR is a little disappointing as, frankly, 16 edge-lit local dimming zones do not a true HDR panel make.The color fidelity of the NanoIPS panel is outstanding.

As a flat, 27-inch display with a design that wouldn"t stand out in an office environment, it looks pretty pedestrian. But it"s actually one of the best gaming monitors I"ve had the pleasure of using. Not only does it have a gorgeous, vibrant IPS panel, with 8-bit color with 92% DCI-P3 coverage, it"s also HDR capable.

The Gigabyte G27Q handles gaming with aplomb thanks to adaptive sync via AMD FreeSync Premium. It"s also G-Sync Compatible so whether you are team Green or Red, the G27Q plays nice. I didn"t have an AMD GPU to test but I did use an Nvidia-powered desktop and laptop. Neither had any problems running games with G-Sync enabled.

It"s a bit of a plain Jane compared to other more pricey options, but it packs plenty of useful features designed to enhance your gaming pleasure.It"s also G-Sync Compatible so whether you are team Green or Red, the G27Q plays nice.

It gets eye-searingly bright thanks to its VESA Display HDR 400 Certification, but in gaming, sunny skies and other bright spots tend to blow out and lose definition at max brightness. Dark areas also sometimes get crushed.

Much like the mystical ways of the Force, PC gaming is all about balance. There"s little point weighting your system too heavily in one direction without paying attention to the whole package. Why bother pairing your RTX 3080 Ti with a 60Hz 1080p screen? Likewise, why spend big on a 4K monitor when you"re only sporting a Radeon RX 6600?

The classic 27-inch Dell S2722DGM marries that screen real estate with a 2560 x 1440 native resolution, which gives you a great pixel pitch for fine detail. At 1440p it"s also a decent resolution for getting high frame rates without the GPU demands of a 4K display. It"s also capable of delivering that resolution at 165Hz, which is appreciated.

This Dell monitor is most importantly available at a great price. Dell delivers high-quality gaming panels, with all the features you need and a few extraneous ones to bump up the price. And that makes it one of the best gaming monitors for most PC gamers today.

Refresh rate, resolution, black levels, panel size: pick two. That"s been the PC monitor buyer"s dilemma for several years now, since we collectively realised that yes, playing at a higher refresh rate does actually make you better at Counter-Strike. MSI"s latest panel, bearing the catchy moniker Oculux NXG253R, aims to at least address the most common tradeoff in modern gaming panels: refresh rate for colour quality.

Whereas the majority of high refresh rate panels are VA or TN screens with limited viewing angle and shallow colours, MSI"s latest is built around an IPS panel, with all the inky blacks and rich colours that technology brings with it. Traditionally IPS has been slower to the party since it"s costlier to manufacture high refresh rate panels, but evidently enough of us are sold on 120Hz and beyond.360Hz does look and feel smoother than 120Hz.

Way beyond, in fact. This is the first 360Hz monitor I"ve played on, and I must admit to being sceptical about whatever marginal gains I might see in performance. 60Hz to 120Hz is transformative, but 120Hz to 360Hz? Surely one"s gaming performance doesn"t increase exponentially. And don"t eyes only see 60 fps anyway?

At enthusiast level, there"s still just a sense of pure enjoyment in watching Overwatch or Quake Champions zip along. Anecdotally, I found D.Va"s out-of-suit pistol combat that bit easier with frames and refresh rate way up at 300 (the game"s capped there) since my targets were always where my screen told me they were. In similarly frenetic Quake Champions matches, I pulled off Ranger"s tricky teleport kill with a bit more ease, too.

This being an IPS panel with typically darker blacks, it definitely looks more vivid in-game than even a good TN screen, and the colours hold up at any viewing angle. You"ve got a few preset brightness and color balance modes to cycle between on the OSD, arranged by genre. FPS is super-bright and saturated, racing is a bit more subdued by contrast. Out of the box, the default colour and brightness settings are easy on the eye and really sell the IPS benefit.

The Oculux NXG253R"s mandate is sound, then, but there are still compromises made in this pricey 1080p monitor in order to optimise esports performance. The most obvious are the screen size and resolution, 24.5-inch and 1080p respectively. You could certainly argue that nobody"s getting 360 fps at 4K in… well, anything outside of CS:GO or MOBAs, and quite rightly so. But spending this much on a monitor that won"t even give you 1440p feels like a serious tradeoff, and that resolution dictates a smaller panel size. Nobody wants to see the individual pixels at 1080p on a 32-inch screen.

We"d all love to have a thousand bucks burning a hole in our back pockets to blow on a new gaming monitor. But back in the real world, the Dell S3222DGM wants a crack at the kind of budget most of us actually have.

It"s a 32-inch beast with a VA panel running at up to 165Hz and delivering 2,560 by 1,440 pixels. Yup, the tried and tested 1440p resolution, the sweet spot for real-world gaming according to many, the perfect balance between performance and visual detail. The catch is all that normally applies to 27-inch models. 32 inches? That makes for a pretty big panel for 1440p in terms of pixel density.

This is a gaming-centric monitor without any HDR support but based on VA panel technology. So, the peak brightness is 350 nits, static contrast is about as good as it gets at 3,000:1, and there"s official AMD FreeSync Premium certification.Rounding out the basics is a gentle 1800R panel curve.

The Pixio PX277 Prime is about as barebones as it comes in regards to gaming monitors. Designed with a sci-fi theme in mind, the base is sharp-looking, and a lot of thought certainly went into the thing"s build quality. The thin bezel is always a plus in our book, too.

Here, this 27-inch panel provides frames at a stable 165Hz refresh rate, not the speediest but certainly workable for competitive gaming. The 1ms grey-to-grey response time doesn"t hurt for gaming either. As a FreeSync certified monitor, AMD users can be sure of a tear-free gaming experience.

At 1440p you get a good pixel density for the size of the monitor, and the image is pretty sharp to boot. The screen itself is advertised as anti-glare and we"re seen that it holds its own in most brightly lit environments, though doesn"t do so well in dim spaces.A great entry-level option for those looking for a larger screen.

The biggest selling point of the PX277 Prime, though, is its low price point. A great entry-level option for those looking for a larger screen with a high refresh rate and don"t want to be left totally broke.

While the build quality isn"t as robust as a higher-spec screen, the Pixio panel is perfect for the budget gamer who doesn"t mind missing out on some of the bells and whistles of a higher-end monitor but is keen on top performance.

We"re finally in an era of gaming where an affordable 4K monitor and a fast 4K monitor are one and the same. You could still buy a lower resolution panel for a whole lot less, but as the Gigabyte M32UC proves you can get a whole lot of screen for what feels like a fair price.

You can find this monitor going for as low as $600, which is an awfully competitive price tag for a speedy 4K gaming monitor at this size. Gigabyte has figured out a heady blend of features for that sort of money too, with two HDMI 2.1 ports, 1ms MPRT, FreeSync Premium Pro, and even a USB 3.2 hub.

But something to consider with the M32UC"s blend of resolution and refresh rate is that even a high-end GPU won"t always make the most of it. That"s what makes the M32UC"s FreeSync capabilities so crucially important. Keeping this panel in sync with your graphics card when it"s underthe max refresh rate of the screen, as it is likely going to be at times, prevents a whole lot of screen tearing.

It should come as no surprise that the 32-inch panel running at 4K results in a stunningly crisp image while gaming. I"ve been playing arguably too much Destiny 2 right now and the M32UC is a stunning way to experience the game. Fine details are well preserved and this panel doesn"t struggle with saturation, which makes for a luscious and vibrant image.

In terms of value for money, Gigabyte has hit the nail on the head with the M32UC. If you look around for competition with similar specs at around the same price, you"ll often only find other Gigabyte models coming close, including a handful of often discounted Aorus models. That makes the M32UC a great choice if you"re planning ahead for a next-gen 4K-capable gaming PC or if you already have a high-end GPU but are not yet making the most of it.

If your mantra for displays is "go big or go home," Acer hears you, and its Predator X38 is a massive 38-inch curved screen that looks stunning. It features a not-quite-4K QHD ultrawide panel with a 3840x1600 resolution. With an aspect ratio of 24:9, the IPS panel looks great, and the size means you have a lot of screen real estate for gaming.

The display also features G-Sync technology with up to 175Hz variable refresh rates. That"s a huge boost over lower refresh rate curved gaming monitors, and Acer has overcome the big IPS downside of typically high response times, too. This beast has a 1ms GtG response, which is truly IPS coming of age and doing it all without the compromises of old.

With its DisplayHDR 400 certification, it’s good enough to deliver what you want in HDR effects, but it’s not dazzling like the HDR 1000 screens you can now buy, like the Asus PG43UQ.Pushing the overclock to 175Hz yielded a perfect result with no ghosting visible.

Banding was pretty much non-existent and the backlighting was even, though with a faintly noticeable glow coming from the edges in dark scenes, but nothing to be troubled about and not noticeable at all while gaming.

It"s a big, bold, and beautiful-looking display. If you"re looking for something to turn heads, this is one of the best widescreen gaming monitors out there.

The best just got a whole lot better. That’s surely a foregone conclusion for the new Samsung Odyssey Neo G9. After all, the original Odyssey G9 was already Samsung’s tip-top gaming monitor. Now it’s been given the one upgrade it really needed. Yup, the Neo G9 is packing a mini-LED backlight.

Still, that 1000R curve, huge 49-inch proportions, and relatively high resolution combine to deliver an experience that few, if any, screens can match. Graphics-heavy titles such as Cyberpunk 2077 or Witcher III are what the G9 does best. In that context, the Samsung Odyssey Neo G9 delivers arguably the best visual experience on the PC today.

Best gaming monitor FAQShould I go for an IPS, TN or VA panel?We would always recommend an IPS panel over TN(opens in new tab). The clarity of image, viewing angle, and color reproduction are far superior to the cheaper technology, but you"ll often find a faster TN for cheaper. The other alternative, less expensive than IPS and better than TN, is VA tech. The colors aren"t quite so hot, but the contrast performance is impressive.Should I go for a FreeSync or G-Sync monitor?In general, FreeSync monitors will be cheaper. It used to be the case that they would only work in combination with an AMD GPU. The same went for G-Sync monitors and Nvidia GPUs. Nowadays, though, it is possible to find G-Sync compatible FreeSync monitors(opens in new tab) if you"re intent on spending less.Should I buy a HDR monitor?With a High Dynamic Range monitor, you can take advantage of the ever-growing list of games and apps that feature HDR support. It offers more vibrant colors and greater contrast but is going to drive up the price a little. Windows" native HDR function also leaves a lot to be desired, and you may find you have to fiddle in the settings to get HDR looking like it should.What aspect ratio should I go for?Today"s movies and games are best enjoyed in a widescreen format at a 16:9 aspect ratio or above. In 4:3, those cinematic moments will look stunted with black strips along the top and bottom. There are a host of minute variations on each ratio, but at the end of the day choosing between these depends entirely on your personal preference.

The speed at which the screen refreshes. For example, 144Hz means the display refreshes 144 times a second. The higher the number, the smoother the screen will appear when you play games.

Graphics tech synchronizes a game"s framerate with your monitor"s refresh rate to help prevent screen tearing by syncing your GPU frame rate to the display"s maximum refresh rate. Turn V-Sync on in your games for a smoother experience, but you"ll lose information, so turn it off for fast-paced shooters (and live with the tearing). Useful if you have an older model display that can"t keep up with a new GPU.

The amount of time it takes a pixel to transition to a new color and back. Often referenced as G2G or Grey-to-Grey. Slow response times can lead to ghosting. A suitable range for a gaming monitor is between 1-4 milliseconds.

TN PanelsTwisted-nematic is the most common (and cheapest) gaming panel. TN panels tend to have poorer viewing angles and color reproduction but have higher refresh rates and response times.

From panel technology to refresh rates, there are a lot of things to consider when looking for a new gaming monitor. To aid you on your journey for the perfect setup, we"re breaking down two of the most common display technology terms: LED and LCD. Here"s what you need to know about LED and LCD screens, what the terms stand for, and how they factor into modern gaming monitors.

LCD stands for liquid-crystal display, which refers to how the monitor works. Behind the screen, liquid crystals are sandwiched between two layers of glass and used to change the colors of pixels to create the images that you see. The whole process is a lot more complicated, but that"s the gist of how LCDs function.

In the past, some LCDs were backlit by CCFLs (cold-cathode fluorescent lamps). LCDs with fluorescent backlighting have been around longer, so if you can find one, they will be cheaper than LED monitors. However, if you"re a gamer looking for decent refresh rates and response times, it"s going to be hard to find a monitor with fluorescent backlighting. They"ve almost completely been replaced by LCD monitors with LED backlights.

LEDs work in a similar way; in fact, you can consider LEDs a subcategory of LCDs. The only difference between some LCDs and LEDs is the type of backlighting: LEDs use LED (light-emitting diodes) backlighting.

In contrast to fluorescent backlighting, LED backlighting generally provides brighter colors and sharper contrast. The monitors are also thinner in size and, in the long run, more energy efficient than LCDs with fluorescent backlights. LED backlighting is the newer technology and the current standard for monitors with high refresh rates and fast response times. When you see LCD in product descriptions, they"re almost always LCD monitors that use LED (as opposed to fluorescent) backlighting. For example, BenQ"s EL2870U monitor is listed as an LCD, but it"s an LCD with LED backlighting.

There are different types of LED backlighting: edge-lit and array-lit. In edge-lit monitors, the lights are placed around the edges of the monitor. Light guides are then used to diffuse the light evenly across the screen. In array-lit monitors, lights are placed behind the screen in a pattern.

You won"t have much of a choice between LED or LCD. Most monitors, regardless of whether they"re marked as LED or LCD, will use LED backlights. LED backlights became the new standard because they allow manufacturers to make thinner, more energy-efficient monitors with better graphics. It"s not worth going out of your way to find an LCD with fluorescent backlighting, unless you really, really hate LED lights.

Check out our guide to the best cheap gaming monitors for more budget options; plus, see our picks for the best monitors for PS5 and Xbox Series X, best 144Hz monitors, and the best 4K gaming monitors for more LED displays worth picking up.

Working from home has become the new normal for many people, so finding the best computer monitor is more important than ever. After all, you want to see the best visual quality from your coworkers" best webcams, right? And while many PC components are still enduring depressing shortages, performing a screen upgrade is one of the most accessible and most impactful changes you can make to your gaming rig at the moment.

Why you can trust Tom"s HardwareOur expert reviewers spend hours testing and comparing products and services so you can choose the best for you. Find out more about how we test.What’s your monitor’s purpose?If it’s gaming, you’ll generally want something with a high refresh rate (ideally 100Hz or more), low response time and AMD FreeSyncor Nvidia G-Sync for fighting screen tears at low framerates. For general use, look for high contrast, and for creative work prioritize color accuracy.What resolution do you want? More pixels means a sharper image. No one should be buying anything under 1080p/FHD (1920 x 1080) these days. But if your budget can handle it, 4K is as sharp as it gets at a reasonable price. Many gamers find 1440p/QHD (2560 x 1440) a good compromise between price and high-refresh-rate performance.Contrast and color.We consider contrast the most important factor in image quality, with 1,000:1 being solid. Color errors are particularly important avoid for content creators, and anything with a Delta E (dE) greater than 3 may show visible errors.Panel tech:When it comes to image quality, TN< IPS< VA. VA monitors typically still have better contrast than even the best IPS panels, although IPS panels are also known to be very colorful.What size do you want?These days, 24-inches is on the small side and 27 inches is mainstream, while 32-inches is a good large size for those on a budget. Anything bigger than 43 inches probably won’t fit on a regular desktop. For portable monitors, stay in the 17-inch range or under. Anything bigger isn"t really all that portable.sRGB or DCI-P3? In most cases, you’ll either be getting a monitor made for the sRGBcolor space or the more colorful DCI-P3 one. Technically, Windows, the web and non-HDR games and video all use sRGB, but if you want an extra colorful screen, an accurate DCI-P3 monitor is more appropriate.

Before we get into our primary list of picks, here is an amazing deal on one of our favorite tested monitors below. Sure, it"s more of a TV than a monitor, but it"s hard to pass up a big OLED screen for $600 (after an admittedly annoying $200 mail-in rebate).

Earning a 5-star rating from Tom"s Hardware, the Samsung Odyssey G7 32-inch is the best computer monitor. For gamers, it boasts the strongest curve currently available, 1000R, for incredible immersion, along with speedy gaming numbers. The 240Hz monitor has a 1ms (GTG) response time and put up a 5ms response time score in our testing, beating some 165Hz screens by 2ms. In addition, benchmarking showed input lag at 20ms, a full 6 to 10ms faster than some 165Hz screens we’ve tested, including the Dell S3220DGF also on this page.

The Dell S3222DGM is the best gaming monitor for many gamers. This follow-up to the highly-rated S3220DGF(opens in new tab) boasts a 32-inch VA(opens in new tab) panel, QHD resolution and 165 Hz refresh rate with Adaptive-Sync(opens in new tab) support. Other perks in its favor are 85 percent coverage of DCI-P3 and a display curve with an 1800mm radius.

This 32-inch monitor offers plenty of vertical screen real estate without the need for scrolling and 1440p resolution(opens in new tab), the current sweet spot between image quality and gaming performance. And while the S3222DGM is targeted primarily at gamers, we found that it is also great for general productivity and anything in between.

While the S3222DGM lacks HDR(opens in new tab) support, its excellent contrast doesn"t detract from that missing "bullet point" and its overall performance is hard to beat at this price point. Throw in Dell"s usual solid build quality, and this represents a great monitor for enthusiasts looking to build out a mid to high-budget gaming PC.

With a 1ms (GTG) response time and 144Hz refresh rate, the LG 27GN950-B is the best computer monitor for 4K gaming. If you’ve got the graphics card, ideally one of the best graphics cards, you need to handle 144 frames per second (fps) at 4K; this monitor will ensure that power doesn’t go to waste. In our testing, the monitor showed a 7ms response time, keeping up with pricier 4K, 144Hz screens, like the Asus ROG Swift PG27UQ, and even beating some when it came to input lag. Plus, FreeSync Premium Pro and G-Sync Compatibility will fight screen tears for those times when framerates drop below 48 fps.

eSports players and hopefuls rely on the fastest peripherals available to attenuate the delay between deciding on in-game action and when that action happens on screen. 360 Hz is the fastest refresh rate PC monitors have today, and the MSI Oculux NXG253R is the fastest of them all. Yes, the NXG253R is the fastest display we’ve ever tested, making it the best computer monitor for eSports you can buy.

The NXG253R outperformed other 360 Hz monitors by 1-3ms (depending on the rival screen) in our absolute input lag test. It also matched all its 360 Hz rivals in our response time test with a 3ms score. The monitor also fights screen tears down to a 1 Hz refresh rate with G-Sync and includes the Nvidia Reflex latency analyzer to help fine-tune your eSports performance further.

If you want an affordable screen with many pixels, the Samsung UR59C is the best budget 4K monitor for you. The VA panel delivers contrast (2590.5:1 after calibration), making everything from photos to videos to games look better. This is clearly not a high-end gaming monitor with a 60 Hz refresh rate, 4ms (GTG) response, and noFreeSync or G-Sync. But casual gamers can make do, thanks to the combination of high pixel density and high contrast, keeping games looking realistic.

Curves are generally more effective on ultrawide screens, but the UR59C’s 1500R curvature was effective and beneficial for this 32-incher, such as when multitasking with multiple windows. And if you don’t mind calibrating, you can get rid of the UR59C pesky color errors, which, unfortunately, were visible out of the box. Our calibration settings reduced the error from 4.3dE to 0.9dE.

Making HDR pop over SDR is all about contrast, and for the ultimate contrast, there’s nothing better than OLED. The Aorus FO48U’s massive OLED panel not only delivers immeasurably high contrast, but we recorded 107.7% coverage of the DCI-P3 color space and near-flawless grayscale tracking. As a result, you get a rich image that’s also accurate out of the box. However, it’s not as bright as a premium LCD (399 nits with HDR, according to our testing).

Aorus’ OLED monitor is fit for high-speed HDR gaming on both PCs and consoles, thanks to DisplayPort 1.4 with Display Stream Compression (DSC) and HDMI 2.1, respectively. The monitor held its own against 120Hz and 144Hz rivals in our speed tests, only falling 4ms behind its OLED gaming rival, the Alienware AW5520QF. Unfortunately, you don’t get Dolby Vision or support for the 50p and 24p TV formats, but the monitor has two 15W speakers and one 20w speaker for outstanding audio quality.

A lot of us are finding ourselves working in tight spaces these days. If you’re looking to add another screen to your space, the Lenovo ThinkVision M14 is the best portable monitor. Its most standout feature is a critical one: a reliable, strong kickstand that’s easy to use, thanks to two flip-out feet. While many portable monitors are stuck with flimsy sleeves that double as stands, you can intuitively prop up the ThinkVision M14 at a -5 to 90-degree tilt or even in portrait mode. Unfortunately, its travel case isn’t as tough.

With a 240Hz refresh rate, 3ms (GTG) response time, and even FreeSync, the Asus ROG XG17AHPE stands high above the competition and easily snags the best portable gaming monitor crown.

This is also a top-of-the-line gaming monitor. It fell just 1ms behind smaller 144Hz rivals in our response time test and even beat a 144Hz alternative during input lag testing.

When buying a gaming monitor, it’s important to compare G-Sync vs FreeSync. Both technologies improve monitor performance by matching the performance of the screen with the graphics card. And there are clear advantages and disadvantages of each: G-Sync offers premium performance at a higher price while FreeSync is prone to certain screen artifacts like ghosting.

So G-Sync versus FreeSync? Ultimately, it’s up to you to decide which is the best for you (with the help of our guide below). Or you can learn more about ViewSonic’s professional gaming monitors here.

V-Sync, short for vertical synchronization, is a display technology that was originally designed to help monitor manufacturers prevent screen tearing. This occurs when two different “screens” crash into each other because the monitor’s refresh rate can’t keep pace with the data being sent from the graphics card. The distortion is easy to spot as it causes a cut or misalignment to appear in the image.

This often comes in handy in gaming. For example, GamingScan reports that the average computer game operates at 60 FPS. Many high-end games operate at 120 FPS or greater, which requires the monitor to have a refresh rate of 120Hz to 165Hz. If the game is run on a monitor with a refresh rate that’s less than 120Hz, performance issues arise.

Despite its effectiveness at eliminating screen tearing, it often causes issues such as screen “stuttering” and input lag. The former is a scenario where the time between frames varies noticeably, leading to choppiness in image appearances.

V-Sync only is useful when the graphics card outputs video at a high FPS rate, and the display only supports a 60Hz refresh rate (which is common in legacy equipment and non-gaming displays). V-Sync enables the display to limit the output of the graphics card, to ensure both devices are operating in sync.

Although the technology works well with low-end devices, V-Sync degrades the performance of high-end graphics cards. That’s the reason display manufacturers have begun releasing gaming monitors with refresh rates of 144Hz, 165Hz, and even 240Hz.

While V-Sync worked well with legacy monitors, it often prevents modern graphics cards from operating at peak performance. For example, gaming monitors often have a refresh rate of at least 100Hz. If the graphics card outputs content at low speeds (e.g. 60Hz), V-Sync would prevent the graphics card from operating at peak performance.

Since the creation of V-Sync, other technologies such as G-Sync and FreeSync have emerged to not only fix display performance issues, but also to enhance image elements such as screen resolution, image colors, or brightness levels.

Released to the public in 2013, G-Sync is a technology developed by NVIDIA that synchronizes a user’s display to a device’s graphics card output, leading to smoother performance, especially with gaming. G-Sync has gained popularity in the electronics space because monitor refresh rates are always better than the GPU’s ability to output data. This results in significant performance issues.

The most notable benefit of G-Sync technology is the elimination of screen tearing and other common display issues associated with V-Sync equipment. G-Sync equipment does this by manipulating the monitor’s vertical blanking interval (VBI).

Released in 2015, FreeSync is a standard developed by AMD that, similar to G-Sync, is an adaptive synchronization technology for liquid-crystal displays. It’s intended to reduce screen tearing and stuttering triggered by the monitor not being in sync with the content frame rate.

Choosing a gaming monitor can be challenging, you can read more about our complete guide here. For peak graphics performance, check out ELITE gaming monitors.

All desktops require an external monitor to function. Computer monitors, like PCs, come in all shapes and sizes. Finding the perfect PC monitor can help take your computer experience to the next level. Whether you are looking for a high resolution external monitor to make your home office more ergonomic or you want a premium option to make gaming more robust, Micro Center has the computer monitor you need to boost productivity and enjoyment when you are using your computer.

Gaming monitors are specialized displays designed to have the lowest response times possible to stay ahead of the competition. PC monitors for office use may have slower response times but are more affordable and capable of performing general use tasks to improve productivity, viewing angles, and more.

At Micro Center, we proudly offer the best monitors for gamers, creatives, and more to help boost connectivity and the viewing experience with your Apple or PC computer. Discover your new high def LED, IPS, or LCD monitor here.

As a gamer, you still want your full HD computer screen to be height adjustable and high resolution, but you may want a few additional features to make gameplay more enjoyable and to make the most use out of your PC’s graphics card. For example, you want premium color accuracy, fast refresh rates, high contrast ratio, and the best image quality to ensure that you enjoy the gaming experience.

Resolution is important to choosing a monitor for gaming or enjoying streaming media with the best picture. Go for a 4K ultra high definition (4K UHD) or 8K monitor if you want the best resolution possible. With more than 8 million pixels, a UHD monitor will undoubtedly enhance the visuals of any gaming or video streaming experience. Ultrawide monitors are also great for creating cinematic viewing angles and making you feel like you’re in the theatre.

Additionally, gaming monitors have features that make them work better with your gaming PC. For example, the Nvidia G Sync or AMD FreeSync are used in some gaming monitors to provide a smoother refresh rate to make gameplay smoother and more enjoyable overall. Our selection of FreeSync and G Sync compatible monitors will help you maximize performance of your Nvidia or AMD graphics card.

Computer monitors are available from all the name brands such as Acer, Samsung, Dell, HP, and ASUS. Dell monitors are a popular choice among many offices and professionals because of their wide range of screen sizes and features. No matter if you are looking for a comfortable widescreen option for your home office or a gaming monitor with special features from Nvidia and AMD, Micro Center has the HD monitor you need!

"creative": "https://60a99bedadae98078522-a9b6cded92292ef3bace063619038eb1.ssl.cf2.rackcdn.com/images_ads_2021Search_May_asus_zenscreen_search_banner820.jpg",

Gaming monitors are designed to make the output of your graphics card and CPU look as good as possible while gaming. They"re responsible for displaying the final result of all of your computer"s image rendering and processing, yet they can vary widely in their representation of color, motion, and image sharpness. When considering what to look for in a gaming monitor, it"s worth taking the time to understand everything a gaming monitor can do, so you can translate gaming monitor specs and marketing into real-world performance.

Resolution is a key feature of any monitor. It measures the width and height of the screen in terms of pixels, or “picture elements”, the tiny points of illumination that compose an image. A 2,560 × 1,440 screen, for example, has a total of 3,686,400 pixels.

Common resolutions include 1,920 × 1,080 (sometimes called “Full HD” or FHD), 2,560 × 1,440 (“Quad HD”, QHD, or “Widescreen Quad HD”, WQHD), or 3840 × 2160 (UHD, or “4K Ultra HD”). Ultrawide monitors are also available with resolutions such as 2560 x 1080 (UW-FHD) and 3440 x 1440 (UW-QHD), 3840x1080 (DFHD), and 5120x1440 (DQHD).

The pixels being counted in these measurements are usually rendered the same way: As squares on a two-dimensional grid. To see this, you can either move closer to (or magnify) the screen until you perceive individual blocks of color, or zoom in on an image until it becomes “pixelated”, and you see a staircase of small squares instead of clean diagonal lines.

Beyond increasing the detail onscreen in games or movies, there"s another benefit to higher resolutions. They give you more desktop real estate to work with. That means you get a larger workspace on which to arrange windows and applications.

You might already know that a screen with 4K display resolution doesn"t magically make everything it displays look 4K. If you play a 1080p video stream on it, that content usually won"t look as good a 4K Blu-ray. However, it may still look closer to 4K than it used to, thanks to a process called upscaling.

Monitors can also change resolution. Modern screens have a fixed number of pixels, which defines their "native resolution" but can also be set to approximate lower resolutions. As you scale down, onscreen objects will look larger and fuzzier, screen real estate will shrink, and visible jaggedness may result from interpolation. (Note that it wasn’t always this way: older analog CRT monitors can actually switch between resolutions without interpolation, as they do not have a set number of pixels.)

Screens with 4K resolution and higher introduce another scaling concern: at ultra-high definition, text and interface elements like buttons can start to look small. This is especially true on smaller 4K screens when using programs that don’t automatically resize their text and UI.

Windows’ screen scaling settings can increase the size of text and layout elements, but at the cost of reducing screen real estate. There’s still a benefit of increased resolution, even when this scaling is used — onscreen content, like an image in an editing program, will appear at 4K resolution even if the menus around it have been rescaled.

Manufacturers measure screen size diagonally, from corner to corner. A larger screen size, in tandem with a higher resolution, means more usable screen space and more immersive gaming experiences.

Players sit or stand close to their monitors, often within 20”-24”. This means that the screen itself fills much more of your vision than an HDTV (when seated at the couch) or a smartphone/tablet. (Monitors boast the best ratio of diagonal screen size to viewing distance among common displays, with the exception of virtual reality headsets). The benefits of 1440p or 4K resolution are more immediately perceptible in this close-range situation.

Basically, you want to find a screen where you never perceive an individual pixel. You can do this using online tools that measure pixel density (in pixels per inch), which tells you the relative “sharpness” of the screen by determining how closely pixels are packed together, or the alternative pixels per degree formula, which automatically compares its measurements against the limits of human vision.

It"s also worth considering your own eyesight and desktop setup. If you have 20/20 vision and your eyes are around 20” from your screen, a 27” 4K panel will provide an immediate visual upgrade. However, if you know your eyesight is worse than 20/20, or you prefer to sit more than 24” away, a 1440p panel may look just as good to you.

A monitor"s aspect ratio is the proportion of width to height. A 1:1 screen would be completely square; the boxy monitors of the 1990s were typically 4:3, or “standard”. They have largely been replaced by widescreen (16:9) and some ultrawide (21:9, 32:9, 32:10) aspect ratios.

Most online content, such as YouTube videos, also defaults to a widescreen aspect ratio. However, you"ll still see horizontal black bars onscreen when watching movies or TV shows shot in theatrical widescreen (2.39:1, wider than 16:9), and vertical black bars when watching smartphone videos shot in thinner “portrait” mode. These black bars preserve the original proportions of the video without stretching or cropping it.

UltrawidesWhy opt for an ultrawide screen over regular widescreen? They offer a few advantages: They fill more of your vision, they can provide a movie-watching experience closer to the theater (as 21:9 screens eliminate “letterboxing” black bars for widescreen films), and they let you expand field of view (FOV) in games without creating a “fisheye” effect. Some players of first-person games prefer a wider FOV to help them spot enemies or immerse themselves in the game environment. (But note that some popular FPS games do not support high FOV settings, as they can give players an advantage).

Curved screens are another common feature on ultrawide monitors. These can correct one typical issue with larger ultrawides: Images at the distant edges of the screen look less distinct than those in the middle. A curved screen helps compensate for this and provides a clearer view of the extreme edges of the screen. However, its benefits are most noticeable on larger screens over 27”.

Contrast RatioContrast ratio, one of the most basic measures of a monitor"s performance, measures the ratio between the extremes of black and white that the screen can display. A baseline contrast ratio like 1,000:1 means that the white parts of the image are 1,000 times brighter than the dark parts.

Use caution when LCDs advertise very high “dynamic contrast ratios”, which are achieved by changing the behavior of the backlight. For gaming or everyday use, the standard “static” contrast ratio discussed above is a better marker of the monitor"s quality.

LuminanceBrightness is often measured in “luminance”, a precise measure of how much light is emitted by the screen. It"s given in candelas per square meter (cd/m2), a unit which is also called a “nit”. For HDR displays, the VESA (Video Electronics Standards Association) has standardized a suite of tests for luminance using specific test patches. When comparing luminance specs, check to make sure they use this consistent test platform, rather than a proprietary metric.

Black LevelIn all LCD screens, light from the backlight inevitably leaks through the liquid crystal. This provides the basis for the contrast ratio: For example, if the screen leaks 0.1% of the illumination from the backlight in an area that"s supposed to be black, this establishes a contrast ratio of 1,000:1. An LCD screen with zero light leakage would have an infinite contrast ratio. However, this isn"t possible with current LCD technology.

“Glow” is a particular issue in dark viewing environments, which means that achieving low black levels is a major selling point for LCD monitors. However, an LCD screen can’t reach a black level of 0 nits unless it’s completely turned off.

OLEDs have incredible black levels because they don"t use backlights. When an OLED pixel isn"t activated by electricity, it creates no light at all. OLED screens may advertise black levels “below 0.0005 nits”, as taking measurements more precise is usually prohibitively expensive. However, the black level is usually much closer to 0 than 0.0005.

Color DepthMonitors need to display many subtle shades of color. If they can"t smoothly transition between slightly different hues, we see onscreen color “banding” — a stark shift between two different colors, creating visibly lighter, and darker bands where we should see a seamless gradient. This is sometimes referred to as “crushing” the colors.

A monitor"s ability to display many slightly different colors, and thus avoid banding and inaccuracy, is measured by color depth. Color depth specifies the amount of data (measured in bits) the screen can use to build the color of one pixel.

Each pixel onscreen has three color channels — red, green, and blue — illuminated at varying intensities to create (typically) millions of shades. 8-bit color means that each color channel uses eight bits. The total number of shades possible in a screen with 8-bit color depth is 28 x 28 x 28=16,777,216.

Some inexpensive LCD panels use 6-bit color along with “dithering” to approximate 8-bit color. In this context, dithering means the insertion of similar, alternating colors next to one another to fool the eye into seeing a different in-between color that the monitor cannot accurately display.

Frame Rate Control, or FRC, alternates different colors with each new frame to achieve this. While this can be implemented more cheaply than 8-bit True Color, color accuracy suffers, especially in low-light environments. Some screens also feature 8-bit color depth with an additional FRC stage (commonly listed as “8-bit + FRC”) to approximate 10-bit color.

Monitors sometimes feature a Look-Up Table (LUT) corresponding to a higher color depth, such as 10-bit color. This helps speed up color correction calculations that take place within the monitor as it converts color input to a color output appropriate for your screen. This intermediate step can help create smoother color transitions and more accurate output. These are usually reserved for more professional grade monitors than general consumer and gaming displays.

Monitors advertising "99% sRGB" are claiming the screen covers 99% of the sRGB color gamut, which is often considered indistinguishable from 100% when viewed with the naked eye.

In LCD screens, the backlight and color filters determine the color space. All of the light created by the backlight passes through a color filter with red, green, and blue spots. Narrowing the “band-pass” of this filter restricts the wavelengths of light that can pass through, increasing the purity of the final colors produced. Although this lessens the screen"s efficiency (as the filter now blocks more of the backlight"s output), it creates a wider color gamut.

HDR monitors display brighter images with better contrast and preserve more detail in both light and dark areas of the screen. Using an HDR monitor, you might be better able to spot something moving down a dark corridor in a horror game, or see more dramatic shafts of sunlight in an open-world title.

For LCD displays, a high-end backlight feature called local dimming is critical to HDR quality. Dimming zones for the backlight behind the screen control the brightness of groups of LEDs; more dimming zones means more precise control, less “blooming” (where light areas of the image brighten dark ones), and generally improved contrast.

Edge-lit local dimming relies on groups of LEDs clustered around the edges of the screen to brighten or dim the image in what is typically a fairly limited number of dimming zones.

Full Array Local Dimming (FALD), a more high-end option, uses far more dimming zones (typically hundreds) directly behind the panel rather than just at the edges of the screen. It can give more finite control of the HDR content and dimming of the screen as a result.

On the low end, a DisplayHDR 400 screen can have a peak brightness of 400 nits (compared to a 300-nit standard monitor), but only needs a standard 95% sRGB color gamut and 8-bit color depth. DisplayHDR 400 doesn"t require backlight local dimming.

On the higher end, a DisplayHDR 600 screen needs a brightness of 600 nits, 90% of the DCI-P3 color gamut (providing a wider color space), 10-bit color depth, and some form of local dimming.

Refresh rate is the frequency at which your entire screen refreshes the image. Higher refresh rates make onscreen motion look smoother, because the screen updates the position of each object more rapidly. This can make it easier for competitive players to track moving enemies in a first-person shooter, or just make a screen feel more responsive as you scroll down a webpage or open an app on your phone.

However, you"ll only actually see those extra frames onscreen if you have a refresh rate that matches or exceeds them; similarly, you only benefit from a high refresh rate screen if you have a CPU and graphics card capable of high frame rates. Plan your build accordingly to get the full benefit from your hardware.

Response times must be fast enough to keep up with the refresh rate. On a 240Hz screen, for example, a new frame is sent to the screen every 4.17 milliseconds (1000/240 = 4.17).

Players sometimes confuse response time with input lag, a measurement of the delay before your actions appear onscreen, similarly measured in milliseconds. Input lag is felt rather than seen, and is often a priority for players of fighting games and first-person shooters.

Input lag is a side effect of the processing done by the monitor scaler and the screen"s internal electronics. Selecting “Game Mode” on your monitor"s adjustment menu often switches off image processing features and lessens input lag. Disabling VSync (which prevents some visual artifacts) in in-game option menus can also help reduce input lag.

Adaptive SyncScreen tears will be instantly familiar to most players: A graphical glitch that appears as a horizontal line on your screen, with slightly mismatched images above and below it.

The glitch involves both your graphics card and monitor. The GPU draws a varying number of frames per second, but the monitor refreshes its screen at a fixed rate. If the GPU is midway through overwriting the previous frame in the frame buffer when the monitor reads the frame buffer to refresh the screen, the monitor will display the mismatched image as-is. The top of the image might be a new frame, but the bottom section will still show the previous frame, creating the “tear”.

AMD Radeon FreeSync monitors operate along similar lines, matching the display to GPU output to avoid screen tearing and stutters. Rather than using a proprietary chip, they"re built on open Adaptive Sync protocols, which have been built into DisplayPort 1.2a and all later DisplayPort revisions. Though FreeSync monitors are often cheaper, the trade-off is that they aren"t subject to standard testing before release, and vary widely in quality.

Both LCDs and OLEDs "sample and hold", displaying moving objects as a series of static images that are rapidly refreshed. Each sample remains onscreen until it"s replaced with the next refresh. This "persistence" causes motion blur, as the human eye expects to track objects smoothly rather than see them jump to a new position. Even at high refresh rates, which update the image more often, the underlying sample-and-hold technology causes motion blur.

Motion blur reduction features use backlight strobing to shorten the time that frame samples are displayed onscreen. The screen turns black after every sample before displaying the next, reducing the time that a static image is held onscreen.

This mimics the operation of older CRT monitors, which worked differently than current LCD technology. CRT screens were illuminated by phosphors that rapidly decayed, providing brief impulses of illumination. This meant that the screen was actually dark for most of the refresh cycle. These quick impulses actually created a smoother impression of motion than sample-and-hold, and motion blur reduction features work to replicate this effect.

Because the backlight is being rapidly turned off and on, these features also lessen the brightness of the display. If you"re planning to use motion blur reduction backlight strobing, ensure that the screen you"re buying has high peak brightness.

These backlights should only be enabled for gaming and fast-moving content, as they will deliberately cause the backlight to flicker, which may be annoying during day-to-day tasks. They also can typically only be used at a fixed refresh rate (like 120Hz), and won"t work at the same time as VRR.

CRTs used three bulky electron guns to send a beam to excite red, green, and blue phosphors on the screen. These phosphors decayed within a few milliseconds, meaning the screen was illuminated by brief impulses on each refresh. This created a smooth illusion of motion, but also visible flickering.

Liquid Crystal Display (LCD)In TFT LCDs (thin-film-transistor liquid crystal displays), a backlight shines light through a layer of liquid crystals that can twist, turn, or block it. The liquid crystals do not emit light themselves, which is a key difference between LCDs and OLEDs.

Older LCDs used Cold-Cathode Fluorescent Lamps (CCFLs) as backlights. These large, energy-inefficient tubes were incapable of controlling the brightness of smaller zones of the screen, and were eventually phased out in favor of smaller, energy-efficient light-emitting diodes (LEDs).

LCD panels are available in a range of technologies and can vary widely in color reproduction, response time, and input lag, especially among high-end options. However, the following generalizations about panels usually hold true:

Oldest and most affordable LCD panel type. High refresh rates and response times for high-speed gaming such as first-person shooters or fighting games.

Pale glow, known as “IPS glow” visible when viewing screens in dark rooms from off-center angles. Response times usually worse than TN panels, but better than VA panels. Lower contrast ratio than VA panels.

Organic Light-Emitting Diode (OLED)OLED screens are emissive, meaning they create their own light, rather than transmissive screens that require a separate light source (like LCDs). Here, the application of electric current causes a layer of organic molecules to light up on the front of the screen.

Backlights may be imperfectly blocked by the liquid crystals in an LCD, causing black areas of an image to appear gray. Because OLEDs have no backlight, they can achieve “true black” by simply turning off a pixel (or at least 0.0005 nits, the lowest measurable brightness).

OLEDs therefore boast very high contrast ratios and vibrant color. The elimination of the backlight also makes them slimmer than LCDs. Much as LCDs were a thinner, more energy-efficient evolution of CRTs, OLEDs may prove a thinner evolution of LCDs. (They can also be more energy-efficient when displaying dark content, like movies, but less energy-efficient with white screens, such as word processing programs).

Gaming monitors often include a mount with adjustable height, tilt, and degree of rotation. These help you find an ergonomic position for your monitor and help it fit in varied workspaces.

You"ll find a multitude of ports behind or beneath your monitor. Display interfaces connect your screen to graphics output from your PC, while USB and Thunderbolt™ ports provide data and power to external devices.

Figuring out what to look for in a gaming monitor depends heavily on the choices you"ve made about the rest of your computer. Modern monitors can generally help you avoid the dropped frames, input lag, and visual artifacts common in older technologies, but the value of increased resolution, color depth, and motion smoothing features will vary from player to player. It"s down to you to separate the must-haves from the nice-to-haves.

Designed for intense, fast-paced games, ASUS VG248QG is a 24” Full HD gaming display with an ultra-fast 0.5ms* response time and blazing 165Hz(overclockable) refresh rate to give you super-smooth gameplay. VG248QG features Adaptive-Sync technology to eliminate screen tearing and choppy frame rate.

ASUS VG248QG is the fastest in its class, boasting a 0.5ms* response time to eliminate smearing and motion blur. This lets you react instantly to what you see onscreen, especially in fast paced games – allowing you to take corners like a pro race car driver, or get that headshot like a seasoned pro.

VG248Q has been certified as G-SYNC Compatible, FreeSync Premium technology delivering a seamless, tear-free gaming experience by enabling VRR by default on NVIDIA GeForce GTX 10-Series and NVIDIA GeForce RTX 20-Series graphics cards.

ASUS GameVisual Technology has seven pre-set display modes to optimize visuals for different types of content. This unique feature can be easily accessed through a hotkey or the On Screen Display (OSD) settings menu.

ASUS VG248QG has extensive connectivity options, including dual-link DVI-D, DisplayPort 1.2, and HDMI(v1.4) port, so you can hook it up to a wide array of multimedia devices. It has a super-narrow 1cm bezel ideal for an immersive and panoramic gaming setup.

Flicker-Free technology reduces flicker to give you a comfortable gaming experience. This minimizes instances of eyestrain and other potentially damaging eye ailments when you"re embroiled in long, drawn-out gaming sessions.

ASUS Ultra-Low Blue Light technology reduces the amount of blue light. You can access and select four different filter settings onscreen easily through the OSD menu or DisplayWidget UI to find the best one that suits the task at hand.

The VG248QG gaming monitor has undergone stringent performance tests and is certified by TÜV Rheinland laboratories, a global provider of technical, safety, and certification services, to be flicker-free and to emit low blue light levels.

ASUS VG248QG is specially designed for long marathon gaming sessions. Its ergonomically-designed stand lets you adjust the tilt, swivel, pivot, and height of the monitor so you always find your ideal viewing position. It can also be VESA wall-mounted to fit in any limited space.

As an unseen player, monitor is often being underestimated. The truth is monitors form as a synergistic effect and bring out the best performance of PC components. GIGABYTE gaming monitors offer the ultimate specifications and quality, users can truly enjoy upscale performance without the need for extravagance.

The streamline appearance represents the simplicity of the GIGABYTE gaming series design philosophy, sturdy stand and matte finish built for functional and aesthetic features adding more to the characteristics.

Step 2: Now that you are in the calibration tool, follow the on-screen instructions to choose your display’s gamma, brightness, contrast, and color balance settings.

Step 2: Your Mac’s step-by-step instructions will walk you through the calibration process once you have found and opened the software utility. Just follow the on-screen instructions to choose:

W4zt Screen Color Test: This simple webpage provides you with several color gradients and grayscale color boxes you can use for quick comparisons, along with an easy gamma test you can run. It’s nice to have so many tests on one page, making this solution great for fast and dirty calibration so you can move on.

The Lagom LCD Monitor Test Pages: Handy for both online and offline use, the Lagom LCD Monitor Test Pages not only allow you to adjust various things such as contrast and response time, but also allow you to download the images as a 120KB zip file, so you can check any monitor in-store that you are thinking about purchasing.

These devices are user-friendly, involving a simple three-step process of fastening the device to your screen, plugging it into a USB port, and opening the calibration software. When the software starts running, you just have to follow the setup procedure. It’s fairly intuitive, but if you have trouble, you can find tutorials online that will walk you through it.