How do I change the graphics on my PC?

Level up your PC visuals! Got multiple monitors? Before you tweak anything, choose your battle station. Select which display(s) you’re optimizing in Settings > System > Display. Check the “Rearrange your displays” section. This is crucial for avoiding graphical glitches and ensuring the right settings apply to the correct screen.

Pro-tip: If you’re experiencing tearing or stuttering, especially during intense gameplay, consider these options:

VSync: Enables vertical synchronization, syncing your graphics card’s refresh rate with your monitor’s, minimizing screen tearing. However, it can introduce input lag; experiment to find the right balance.
G-Sync/FreeSync: Adaptive sync technologies that dynamically adjust your monitor’s refresh rate to match your GPU’s output, eliminating tearing without significant lag. Check if your monitor and GPU support it.
High Refresh Rate Monitor: A higher refresh rate (e.g., 144Hz, 240Hz) dramatically improves smoothness and responsiveness, especially important for competitive gaming.
Resolution: Lowering your resolution can boost FPS, especially if your GPU is struggling. Find the sweet spot between visual fidelity and performance.
Graphics Settings in Games: Don’t forget to adjust in-game settings! Lowering shadow quality, anti-aliasing, and texture detail can significantly improve FPS.

Remember: Knowing your hardware specs (GPU, CPU, RAM) is key to understanding what graphical settings your rig can handle. Overclocking (at your own risk) can provide performance boosts, but proceed with caution and proper cooling!

How do I change the graphics settings in Windows 10?

Unlock your gaming potential! Want smoother framerates and better visuals in your favorite Windows 10 games? Tweaking your graphics settings is key. Navigate to Settings > System > Display > Graphics settings. Here, you’ll find a list of your installed apps. Select the game you want to optimize. The crucial part: choose the performance mode. You’ll typically see options like “Power saving,” “Default,” and “High performance.” Selecting “High performance” dedicates more GPU power to the game, resulting in improved visuals and potentially higher FPS. Hit “Save” and prepare for a boosted gaming experience!

Pro-tip: If a game isn’t listed, you can manually add it. This is especially useful for newly installed games or those not automatically detected. Experimenting with different settings within the game itself, beyond this initial Windows setting, is also highly recommended for further optimization. Remember, finding the sweet spot between performance and visuals depends on your specific hardware and the game’s demands.

Why is the graphics in games so bad?

Poor graphics in games stem from a confluence of factors, not simply a single deficiency. Technical limitations are often a major contributor; older engines, insufficiently powerful hardware targets (e.g., targeting low-end mobile devices), or limitations in the chosen rendering pipeline can significantly impact visual fidelity. Beyond hardware, developer skill and experience play a crucial role. Lack of expertise in optimization, shader programming, or 3D modeling can result in subpar visuals, even with sufficient resources. This is especially apparent in indie titles with limited teams.

Furthermore, budgetary constraints are a significant obstacle. High-fidelity visuals require substantial investment in assets (models, textures, animations) and skilled artists. Limited budgets necessitate compromises, often leading to lower polygon counts, simpler textures, and less detailed environments. Closely related is the pressure of tight deadlines. Rushed development cycles often prioritize functionality over visual polish, leading to shortcuts that negatively affect the game’s appearance. Finally, artistic style should also be considered; a deliberately low-poly or stylized aesthetic might be a conscious design choice rather than a consequence of limitations, though it can still be perceived as “bad” by players accustomed to photorealistic graphics.

Which graphics settings have the biggest impact on FPS?

Listen up, newbie. Forget fiddling with minor settings. The real FPS killers are the big guns: anti-aliasing (AA), texture quality, object detail, draw distance, shadows, and post-processing effects. These are the resource hogs. Smashing those down is your first priority. Don’t be a wimp; crank that AA down to FXAA or even off – jagged edges are a small price to pay for a playable framerate. Textures? Medium is usually enough unless you’re running a potato. Object detail – same deal, lower it to ‘medium’ or ‘low’. Draw distance? Unless you need to spot snipers a mile away, reduce it. Shadows are performance vampires; disable them or drop them to ‘low’. Finally, post-processing – that fancy bloom and depth of field? Yeah, nuke it. These are the first things to sacrifice on the altar of FPS.

Pro-tip: Don’t just blindly lower everything to low. Tweak each setting individually, checking your FPS after each change. You might find that some settings affect your performance more than others. Also, consider using a performance monitor like MSI Afterburner or Rivatuner to pinpoint the biggest bottlenecks. And don’t forget about VSync! Turning it off often yields a huge performance boost, even if it means some screen tearing. If you’re still struggling, look into using DLSS or FSR; these upscaling techniques can boost performance considerably with a minimal impact on visual quality.

One last thing: your hardware matters. If you’re playing on a toaster, don’t expect miracles. Upgrade your rig or lower your expectations. No magic bullet here.

How do I switch from integrated graphics to a dedicated graphics card?

That’s a ridiculously simplistic explanation, guaranteed to confuse more than it helps. Let’s break down how to actually switch from integrated graphics to a dedicated GPU, covering the potential pitfalls.

Step 1: Pre-flight Check

Verify Physical Installation: Is your dedicated GPU correctly seated in a PCIe slot? Loose connections are a MAJOR source of boot problems. Reseat the card firmly – you might even need to slightly press down on it.
Power Supply: Does your power supply have enough wattage and the correct power connectors for your GPU? Insufficient power is another leading cause of failure.
Driver Installation: While we’ll cover this later, having the correct drivers ready will dramatically improve your chances of success. Download them from the manufacturer’s website *before* you start.

Step 2: BIOS/UEFI Navigation – The Real Challenge

Entering the BIOS/UEFI is the first hurdle. The key varies by motherboard manufacturer (Delete, F2, F10, F12 are common). It’s often displayed briefly during boot. If you miss it, you’ll have to reboot.

Locate the Graphics Setting: This isn’t always straightforward. It could be under “Advanced,” “Peripherals,” “Onboard Devices,” “Integrated Graphics,” or something completely different. Your motherboard’s manual is essential here.
“Enabled/Disabled” is Rarely Enough: You might find options like “PCIe Graphics Priority,” “Primary Display Adapter,” or “IGPU Multi-Monitor.” Choosing the dedicated GPU often involves selecting it as the primary display device, not just disabling the integrated graphics.
The “Auto” Option: Relying on “Auto” can be unreliable. It *might* work, but if it doesn’t, manually selecting your dedicated GPU will save you troubleshooting time.

Step 3: Post-BIOS: Driver Installation and Verification

Critical Step: Once you boot into Windows, you NEED to install the correct GPU drivers. Windows might install basic drivers, but performance and features will be severely limited. Failure to do this is the reason for many “it’s not working” complaints.

Verification: Use the Display settings in Windows (right-click on the Desktop) to confirm your dedicated GPU is active and functioning correctly.

Troubleshooting: If you’re still having problems, check your monitor connections. Ensure your monitor is connected directly to the GPU and not to the motherboard’s integrated graphics ports.

How do I switch the graphics to my dedicated graphics card?

Unlock your gaming potential! Switching your graphics to your dedicated GPU in Windows 11 is easier than you think. Forget lag and stuttering – let’s get those frames soaring.

Here’s how to conquer the settings and unleash your gaming beast:

Right-click that glorious desktop background.
Select “Display settings” – it’s your portal to graphical nirvana.
Click on “Graphics” – this is where the magic happens.
Locate your game – make sure it’s listed. If not, you might need to locate the .exe file and add it manually.
Click the game and select “Options.”
Choose “High performance” – this dedicates your powerful GPU to the game, maximizing performance.
Click “Save” and prepare for a visual upgrade.

Pro-Tip: If your game isn’t listed or you’re still experiencing performance issues, check your graphics driver updates! Outdated drivers are like rusty swords – they’ll hinder your performance.

Bonus Round: Understanding the difference between “Integrated Graphics” (your CPU’s built-in graphics) and a dedicated GPU is key. Integrated graphics are fine for basic tasks, but a dedicated GPU is the muscle your games need to truly shine. Think of it like this: Integrated graphics are a bicycle, while a dedicated GPU is a supercharged sports car.

Integrated Graphics: Built into your CPU, good for basic tasks.
Dedicated GPU: A separate graphics card, essential for gaming and high-performance tasks.

How do I access the graphics settings?

Accessing your graphics settings depends on your system and graphics card. The most common method is right-clicking on your desktop and looking for an option like “Graphics Properties” or “Intel Graphics Settings.” If you don’t see these options, try searching your start menu for “Graphics Settings,” “Display Settings,” or the name of your graphics card (e.g., “NVIDIA Control Panel,” “AMD Radeon Software”). These searches will often lead you directly to the control panel for your graphics card. Remember that the exact wording and location of these settings can vary slightly depending on your operating system (Windows 10, Windows 11, etc.) and the version of your graphics drivers. If you’re still having trouble, checking your graphics card manufacturer’s website for support documentation or drivers is recommended. Older systems might require accessing the display settings through the Control Panel.

Within the graphics settings, you’ll usually find options to adjust resolution, refresh rate, advanced display settings (like color depth and anti-aliasing), and potentially 3D settings for gaming. Experiment with these settings carefully, as incorrect configurations can lead to blurry images, poor performance, or display errors. If you are unsure of the best settings for your system, starting with the default settings and making incremental changes is advised.

For gaming, the specific graphics settings options will vary wildly depending on the game. Take time to explore the in-game graphics settings menus, often located in the options or settings menu. Some games offer very detailed graphics configuration panels, and finding the ideal balance between visual quality and performance can significantly enhance your gaming experience.

How do I switch graphics from the graphics processor to the video card?

Noob question, but here’s the lowdown. You gotta crack open your GPU control panel. Nvidia users, that’s the “NVIDIA Control Panel,” AMD peeps, it’s Radeon Software (or that ancient relic, Catalyst Control Center – if you’re *still* using that, upgrade!).

Inside, hunt down “3D Settings” or “Switchable Graphics” – depending on your setup, it might be buried deeper than a dragon’s hoard. You’re aiming for the “High-performance NVIDIA processor” or equivalent AMD option. Don’t be a chump and select integrated graphics; that’ll tank your framerate faster than a newbie in a PvP match.

Pro-tip: Sometimes, individual games need manual tweaking. Right-click the game’s executable, choose “Run with graphics processor,” and force it to use your dedicated GPU. This bypasses any auto-switching nonsense. Crucial for older games or those with wonky optimization.

Another thing: Check your power settings! If your laptop’s in “power saving” mode, it might be throttling your GPU regardless of your settings. Max that sucker out for gaming. Also, drivers! Keep those suckers updated; outdated drivers are the bane of every gamer’s existence.

Finally, if you’re still having problems, check your game’s settings. Some games have their own graphics settings that can override the system settings. Make sure everything is pointing towards your dedicated GPU. Good luck, scrub.

How do I access the graphics properties?

Alright gamers, so you wanna tweak those graphics settings? It’s easier than you think. Right-click that desktop, yeah? You’ll see a few options pop up. Look for something like “Graphics Properties” or “Intel Graphics Settings” – the exact wording depends on your graphics card, obviously. Nvidia users, you’ll find something similar, but it’s usually called “Nvidia Control Panel”.

Pro-tip: Don’t just blindly smash settings. Before you dive in, check what your monitor’s native resolution is – usually 1080p (1920×1080), 1440p (2560×1440), or 4K (3840×2160). Matching the game’s resolution to your monitor’s native res will give you the crispest image. Don’t go higher than your monitor supports!

Here’s the lowdown on some key settings, things that actually impact your gameplay:

Resolution: As mentioned, match your monitor’s native res for optimal clarity.
Refresh Rate (Hz): Higher Hz means smoother gameplay. A 60Hz monitor caps at 60fps, a 144Hz at 144fps, and so on. Don’t push it past what your monitor can handle.
Anti-Aliasing (AA): Smoothes out jagged edges. It looks pretty, but it’s performance-heavy. Experiment to find a balance between visuals and FPS.
Shadow Quality: Shadows can be intense, especially in high-detail games. Lowering the quality can significantly improve performance.
Texture Quality: This affects how detailed surfaces look. High quality = pretty, but demands more GPU power.
VSync: Synchronizes your frame rate with your monitor’s refresh rate. Can eliminate tearing, but may introduce input lag. Experiment.

Important Note: If you’re still struggling with performance after tweaking settings, consider updating your graphics drivers. Outdated drivers are a common culprit for performance issues. Head to your graphics card manufacturer’s website (Nvidia, AMD, Intel) to download the latest drivers.

Remember, the optimal settings depend on your hardware. Experiment to find the sweet spot between visual fidelity and performance. Happy gaming!

What’s causing the FPS drops in games?

FPS issues? It’s always the hardware, kid. Let’s be clear: your FPS is a direct reflection of your rig’s capabilities. No magic bullet here. While some games are more CPU-bound (think strategy games or highly-simulated environments), others are GPU-hogs (most modern AAA titles). A weak GPU is your biggest FPS killer, choking frames like a noob in a 1v1. A bottlenecked CPU, though, can cripple even the most powerful graphics card; think of it as a superhighway ending abruptly at a dirt road. Insufficient RAM? Prepare for stutters and lag; the game needs that space to breathe, and running out of it is like trying to run a marathon with your legs tied together.

Beyond the Big Three (GPU, CPU, RAM): Don’t forget the storage! An SSD makes a massive difference compared to an HDD; faster loading times mean less time waiting, translating directly into more time spent fragging. Even your power supply can impact FPS indirectly; an unstable power supply can lead to random crashes and performance dips. And finally, your drivers are crucial. Outdated or corrupt drivers can severely impact performance. Update them regularly; it’s basic hygiene for a PvP warrior.

Identifying the culprit: Use monitoring tools to pinpoint the bottleneck. Is your GPU maxed out? Your CPU? Your RAM usage sky-high? The answer dictates your upgrade path. Don’t waste money on a top-tier GPU if your CPU is holding it back. Analyze, upgrade strategically, and dominate.

What causes high FPS?

High FPS, that buttery-smooth gameplay we all crave, hinges on powerful hardware. A top-tier CPU and GPU are paramount. Think of the CPU as the game’s brain, orchestrating everything, while the GPU is the artist, rendering the stunning visuals. A weak CPU can bottleneck even the most powerful GPU, resulting in frustrating performance dips.

Beyond the core components:

RAM: Insufficient RAM forces the system to use slower storage, leading to stuttering and frame rate drops. 16GB is generally the minimum for modern gaming, with 32GB becoming increasingly desirable for high-resolution textures and demanding titles.
Storage: An NVMe SSD drastically reduces load times and improves overall responsiveness compared to traditional HDDs. The faster the storage, the quicker assets are loaded, leading to smoother gameplay, particularly in open-world games.
Drivers: Outdated or corrupted graphics drivers are a common culprit for poor performance. Always ensure you’re running the latest drivers from the manufacturer (Nvidia or AMD).
Resolution & Settings: Lowering your resolution or in-game settings (shadows, textures, anti-aliasing) directly impacts the GPU’s workload, resulting in higher FPS. Experiment with different settings to find the optimal balance between visual fidelity and performance.
Background Processes: Close unnecessary background applications (especially resource-intensive ones) to free up system resources for your game. Even seemingly innocuous programs can impact FPS.

Understanding Bottlenecks: Identifying whether your CPU or GPU is the bottleneck is crucial for optimization. Monitoring tools like MSI Afterburner can provide valuable insights into resource utilization. A CPU bottleneck often manifests as consistently high GPU usage but low FPS, while a GPU bottleneck shows high CPU usage but lower GPU usage.

Overclocking (Advanced): For experienced users, carefully overclocking your CPU and/or GPU can yield significant FPS improvements. However, this carries risks and requires thorough understanding and proper cooling.

Why is my PC graphics so bad?

How do you know if a graphics card is dying?

How do I switch from my dedicated graphics card to my integrated graphics card?

Switching between dedicated and integrated GPUs is a common performance tweak, especially for older systems. The BIOS/UEFI method you described is correct; however, the exact steps and terminology vary wildly depending on your motherboard manufacturer. Look for options like “Primary Graphics Adapter,” “IGP,” “Onboard Graphics,” or “PCIe Graphics.” Setting this to “Auto” usually defaults to the dedicated card if present, prioritizing performance. Setting it to “Enabled” forces the system to use the integrated graphics, conserving power.

Consider this: forcing integrated graphics will significantly reduce performance in games, especially graphically intensive titles. This is because integrated GPUs are significantly less powerful than dedicated cards. Expect lower frame rates, reduced resolutions, and potentially unplayable gameplay.

Beyond BIOS settings, some systems allow for dynamic switching via the operating system’s display settings. This is often limited to lower-end hardware or laptops with Optimus technology (Nvidia) or similar. Check your system’s display settings for options relating to multiple graphics processors. You might find an application-specific graphic selection. This allows choosing the GPU on a per-application basis, ideal for conserving battery life or prioritizing performance.

Finally, understand potential drawbacks. Switching GPUs frequently might not be ideal. Repeated BIOS entries could, in rare cases, corrupt settings. Always ensure you have a backup of your BIOS settings before making significant changes.

How do I open the graphics settings on my PC?

Alright, listen up, newbie. Want to tweak your graphics? Forget that pansy “Start” button nonsense. We’re going hardcore.

First, right-click your desktop. Yeah, that empty space where your icons live. Select “Display settings”. Don’t even think about using the Start menu. That’s for casuals.

Second, you’ll see “Display”. Find that? Good. Now, the crucial part is often buried, so you might need to hunt. Look for something like “Graphics settings,” “Advanced display settings,” or even “Manage 3D settings” (that’s for the Nvidia crowd). They hide this stuff like it’s some sort of cheat code.

Third, once you find it, you’ll probably see a list of your applications. Find the game you want to optimize. This is where the real tweaking begins. Don’t just blindly max everything out! Here’s the breakdown:

VSync: Turn this OFF unless you’re getting major screen tearing. It’ll cap your FPS but usually at a cost to performance. Experiment.
Anti-aliasing (AA): Smoothes out jagged edges. High settings look good, but eat performance. Try FXAA first; it’s a performance-friendly option.
Shadows: Performance killers. Lower settings drastically improve framerates. Experiment with “medium” first.
Texture quality: Higher quality means more detailed textures, but it can tank your performance. Try “High” or “Medium” if you have a beastly GPU.
Ambient Occlusion (AO): Improves realism by adding shadows in crevices. Can be quite demanding, so start with “off” or “low”.
Anisotropic Filtering (AF): Improves texture clarity at angles. 16x is usually overkill; 4x or 8x is usually enough.

Fourth, once you’ve made changes, save and close. Now launch your game and bask in the glory of your finely tuned settings. Remember, it’s about finding the sweet spot between eye candy and playable framerates. Experiment! Don’t be afraid to tweak and restart your game to see the effects. Learn what works best for your hardware!

Pro Tip: Use monitoring tools like MSI Afterburner or RivaTuner Statistics Server (RTSS) to check your GPU and CPU usage while gaming. This will help you identify performance bottlenecks and optimize further.

Is it possible to simply replace the graphics processing unit?

Swapping GPUs? Child’s play. Yes, provided you have a free PCI/PCI-e slot. Think of it like replacing a rusty sword with a dragon-forged blade – a significant upgrade.

But, newbie, there’s more to it than meets the eye. Your PSU (power supply unit) needs enough juice for the new beast. Check its wattage rating – a hungry card will starve a weak PSU, causing crashes or worse, permanent damage. Look for the recommended wattage on your chosen card’s specs; aim for a comfortable margin above that.

Next, the physical dimensions matter. Measure your case’s interior to ensure the card fits. Some behemoths require spacious cases, especially if you value airflow. Poor airflow leads to thermal throttling – your shiny new card choking on its own heat, effectively lowering its performance.

Drivers, young padawan, are your allies. Download the correct drivers *before* installation. Installing the wrong ones is like wielding a cursed weapon – unexpected crashes and glitches guaranteed. Go to the manufacturer’s website (Nvidia or AMD) – don’t settle for generic drivers.

Finally, and this is crucial, double-check your motherboard’s compatibility. Some older motherboards might have limited PCIe lane support, bottlenecking the performance of newer, high-end GPUs. A quick Google search with your motherboard model and the GPU model will save you headaches later.

Lacking any of these slots? Then upgrading your entire rig is less a simple swap and more a complete overhaul. Consider a new build – it’s often more cost-effective.

How do I change the graphics card mode?

Switching graphics modes? Rookie mistake. Listen up, scrub.

NVIDIA users, fire up the NVIDIA Control Panel. Don’t even think about messing with the driver settings unless you’re comfortable bricking your system. Inside, hunt down “Manage 3D settings”. This is your battlefield. Prioritize performance with the “High-performance NVIDIA processor” option. Ignore the power-saving mumbo jumbo unless you’re playing Solitaire.

AMD players, it’s Radeon Software (or the ancient Catalyst Control Center if you’re clinging to the past). Look for “Switch Graphics” or similar wording. You want the dedicated GPU, not the integrated graphics that’ll make your frames crawl slower than a snail on tranquilizers. High performance is the only setting that matters unless you’re trying to save battery while watching cat videos.

Pro-tip: Some games have their own in-game settings to force the use of your dedicated GPU. Check there first. Overriding the OS settings from within the game can sometimes give you a slight performance edge. Don’t forget to restart your games (and sometimes even your PC) after making changes. And remember, every GPU is different; what works best depends on your specific hardware and software.

Advanced technique: If you’re truly hardcore, learn to profile your games and monitor GPU usage with tools like MSI Afterburner or similar. This lets you tweak settings and identify bottlenecks, giving you a massive advantage over casual players.

How many FPS can the human eye see?

The human eye? It’s not as simple as a fixed FPS counter. While often cited as 100-150fps, that’s a simplification. The truth is far more nuanced. Think of it like this: your brain is a powerful rendering engine, constantly processing visual information. It’s not just about how many frames per second it can receive, but how it interprets the motion itself. The 1kHz (1000fps) figure represents the theoretical upper limit of visual perception – the absolute fastest rate at which changes in brightness can be distinguished. This means your eyes can technically detect incredibly rapid changes, but your brain struggles to process them as distinct, smooth images beyond about 100-150fps. This is why high refresh rate monitors (144Hz, 240Hz) provide a smoother, more responsive experience in gaming. But even at 1000fps, the effect would be less about noticing more frames, and more about eliminating motion blur.

The key takeaway for gamers? While surpassing 100-150fps may not noticeably improve your perception of smoothness for most people, higher frame rates still significantly benefit responsiveness, especially in competitive games where milliseconds matter. That crisp, lag-free feeling? That’s where higher FPS shines. So, it’s not just about the number of frames – it’s about the clarity and precision they provide.

How can you tell if your graphics card is dying?

Listen up, rookie. Seeing graphical glitches isn’t just a visual annoyance; it’s a distress signal from your GPU. Think of it like a warning siren in a raid boss fight – you need to act fast.

Here’s the lowdown on those death rattles:

Grainy artifacts: Picture static on an old TV, but on your game. It means your GPU’s memory is failing. Time to start saving your game, often.
Black bars or stripes: These indicate serious memory or connection issues. Expect crashes and potential data loss. Don’t expect to beat that boss soon.
Random colored pixels or dots: Think of them as little digital tumors on your monitor. Your GPU is hemorrhaging data. Prepare for frequent crashes – and a new GPU soon.
Patterned artifacts (squares, lines): This is a classic sign of dying VRAM. It’s like a game loading bug but it won’t fix itself. It’s game over for the old GPU.
No signal at all: Game over, man, game over. Your GPU has given up the ghost. Time for some serious hardware shopping.

Beyond the visuals, keep an eye on these:

Game crashes: Frequent crashes, especially during demanding scenes, are often a telltale sign. That raid boss you’ve been prepping for is the least of your worries now.
Driver errors: Regular driver crashes or installation failures are a serious red flag. Your GPU is struggling to communicate, possibly from overheating or physical damage.
Overheating: If your GPU consistently runs at high temperatures (above 80°C/176°F), it’s putting itself at risk. Clean those fans, ensure proper airflow. It’s like making sure your character has enough potions before a big fight.

Bottom line: Don’t ignore these warning signs. A failing GPU can lead to data loss and ultimately, a broken experience. Start looking for a replacement before your next major gaming session. You’ve invested your time and effort in this character, don’t let a dying GPU ruin your progress.

Is 30 frames per second better than 120 frames per second?

Nah, 30fps is garbage in 2024. 60fps is the baseline for smooth gameplay; anything less feels clunky and unresponsive. 120fps is where things get buttery smooth, significantly reducing motion blur and offering a competitive edge, especially in fast-paced games. 240fps? That’s for the absolute top tier, those chasing the slightest advantage. It’s overkill for most, but if you’re a pro or a serious streamer, the difference in responsiveness at that level can be felt and, crucially, translated into wins. The higher the refresh rate, the less input lag you experience, meaning your reactions translate to on-screen actions faster. It’s about milliseconds, yes, but those milliseconds are the difference between a kill and a death in competitive gaming. Consider your monitor’s refresh rate too; running 240fps on a 60Hz display is pointless. Match your refresh rate and your GPU capabilities for optimal performance.