Boosting your FPS: A Practical Guide
Low FPS? Let’s fix that. Here’s a tiered approach, starting with the easiest solutions:
Tier 1: Quick Wins (Minimal impact on visual quality)
Disable Anti-Aliasing (AA): This smooths jagged edges but is computationally expensive. Disabling it often yields a significant performance increase (around 10-20%, depending on your hardware and game). Experiment with different AA settings if complete disabling is too harsh; some offer a good balance between visual fidelity and performance.
VSync Off: Vertical Synchronization syncs your frame rate to your monitor’s refresh rate. While it eliminates screen tearing, it can significantly cap your FPS, especially if your game runs above your refresh rate. Turning it off often provides a substantial FPS boost.
Tier 2: Moderate Adjustments (Noticeable visual impact)
Lower Game Detail and Quality Settings: This is the most impactful way to boost performance. Start by tweaking settings like shadows, textures, effects, and draw distance. Experiment to find the sweet spot where the visual quality is acceptable for you while providing a noticeable FPS boost. Consider using medium or low settings for these aspects before resorting to lower resolutions.
Disable Shadows: Shadows are incredibly demanding. Disabling or significantly reducing shadow quality will noticeably improve your frame rate, especially in games with complex shadow rendering. Experiment with shadow resolution and shadow quality options first before completely disabling them.
Reduce Texture Resolution: High-resolution textures look great but consume considerable VRAM. Reducing the texture quality settings will result in less detailed textures, but can free up significant resources.
Tier 3: Drastic Measures (Significant visual impact)
Lower Resolution: Lowering your resolution (e.g., from 1920×1080 to 1600×900 or 1280×720) is a very effective, albeit drastic, way to boost FPS. It significantly reduces the rendering load on your GPU. This is best used as a last resort.
Tier 4: Advanced Techniques
Overclocking your GPU: This involves increasing your graphics card’s clock speed and voltage, which can lead to higher FPS. However, it’s crucial to do this carefully and within safe limits to avoid damaging your hardware. Use reputable overclocking software and monitor temperatures closely. Improper overclocking can damage your GPU.
Driver Updates: Ensure you have the latest drivers installed for your graphics card. Updated drivers often include performance optimizations and bug fixes.
Background Applications: Close unnecessary background applications that might be consuming system resources and impacting performance.
How to get 120 FPS in games?
Achieving a consistent 120 FPS in games depends heavily on several interconnected factors. First, the game itself must support 120Hz refresh rates. Many titles, even modern ones, don’t offer this option. Check the game’s in-game settings menu explicitly for a “120 FPS,” “High Refresh Rate,” or similar setting. Fortnite, as mentioned, is a good test case due to its broad support, but positive results there don’t guarantee compatibility across all titles.
Beyond the game, your display’s capabilities are crucial. Ensure your monitor or TV supports a 120Hz (or higher) refresh rate and that it’s properly connected to your PlayStation using a compatible cable (HDMI 2.1 is recommended for high refresh rates and resolutions). Incorrect cable usage can significantly limit frame rate regardless of game and console settings.
Your PlayStation’s settings also play a role. Navigate to the display settings and verify that 120Hz output is enabled and selected as the refresh rate. This is often found under “Video Output,” “Resolution,” or a similar section. Activating 120Hz mode often necessitates selecting a specific resolution, typically 1080p; higher resolutions (like 4K) generally demand greater processing power making 120 FPS less achievable.
Finally, your console’s hardware performance limits your FPS. While the game and display support 120Hz, intense graphical settings can bottleneck your frame rate. Experiment with lowering graphical details (shadows, textures, effects) to see if it improves performance towards the target. Consider using performance mode options if available within the game, prioritizing frame rate over visual fidelity. Background applications running on the PlayStation can also impact performance; close unnecessary apps.
What causes poor FPS?
Low FPS? Been there, dealt with that, countless times. It’s a real buzzkill, especially when you’re trying to dominate that leaderboard. Let’s break down the usual suspects:
- Your GPU is showing its age: Think of your graphics card as the engine of your gaming experience. An older card simply can’t keep up with modern games’ demands. Upgrading is the only real fix here. Consider checking benchmark scores for different cards before buying – don’t just fall for the marketing hype!
- RAM issues: Not enough RAM means your system is constantly swapping data to and from the hard drive, a painfully slow process. The more RAM, the smoother the gameplay, especially in more demanding games. 16GB is a good starting point these days, but 32GB is increasingly common for higher-end setups.
- In-game settings: This is the easiest fix. Crank those graphics settings down! Start with things like shadows, textures, and anti-aliasing. You’d be surprised how much a difference lowering those settings can make. Experiment to find the sweet spot between visuals and performance.
- CPU struggles: Your CPU is the brain of the operation. A weak CPU will bottleneck your system, meaning your GPU is sitting idle waiting for instructions. Upgrading the CPU is a significant undertaking, but sometimes necessary. Make sure your CPU is compatible with your motherboard and that you’re not bottlenecking your GPU with an older or weaker CPU.
- HDD slowdown: Using an HDD (hard disk drive) instead of an SSD (solid-state drive) is a major performance killer, especially for loading times. SSDs are significantly faster, making a huge difference in loading screens and overall game responsiveness. If your game stutters frequently, this is a high probability suspect.
Troubleshooting tips: Don’t just guess! Use monitoring tools (like MSI Afterburner or similar) to see which component is maxing out (CPU or GPU utilization). This pinpoints the bottleneck – the weakest link in your system. Addressing *that* specific issue will yield the biggest performance gains. Sometimes, it’s not one single thing, but a combination of factors. Prioritize upgrades based on your findings!
How to increase 99% FPS?
99% FPS? You’re kidding, right? That’s practically capped. Unless you’re running some ancient potato, something’s seriously bottlenecking. Let’s fix this.
Background Processes: Don’t just *look* at Task Manager. Kill anything unnecessary. Streaming, browsers, even Discord – they’re FPS assassins. Prioritize the game. Learn to ruthlessly manage your resources.
Game Updates: Duh. Patches often include performance optimizations. Don’t be lazy.
Driver Updates: Not just updates, but clean installs. Use DDU (Display Driver Uninstaller) to wipe your current drivers before installing the latest ones. This eliminates driver conflicts – a common culprit for performance issues.
Tweaks and Mods: Research carefully. Not all mods are created equal. Some might improve performance; others will tank it. Find reputable sources and read reviews. Consider performance-focused mods specifically designed to improve FPS. Learn to read mod descriptions meticulously and understand what they do before installing.
Repairing the Install: A simple repair might fix corrupted files. But if that fails, reinstall the game. A fresh install is often overlooked but can resolve a surprising number of performance problems.
Beyond the Basics: Consider overclocking (proceed with caution!), tweaking in-game settings (lower shadows, reflections, etc.), checking your CPU and GPU temperatures (overheating is a killer), and ensuring adequate cooling. RAM is also crucial – check your usage. A near-full RAM will cripple your FPS.
Advanced Tip: Use MSI Afterburner or similar software to monitor your GPU and CPU usage *while* gaming. This lets you pinpoint the exact bottleneck: is it the CPU struggling to keep up, or is your GPU maxed out? This information is critical for targeted optimization.
Does RAM increase FPS?
RAM’s impact on FPS isn’t a simple yes or no. Think of it like this: your CPU is the general, issuing orders, and your GPU is the battlefield commander, executing those orders. RAM is the messenger, delivering critical information between them at lightning speed. Insufficient RAM forces the system to use slower storage (your hard drive or SSD), creating a bottleneck – like a messenger stuck in traffic, delaying critical orders. This directly impacts frame rates (FPS) and leads to inconsistent frame pacing (stuttering).
The amount of RAM is crucial. 16GB is the bare minimum for modern gaming; consider 32GB or even 64GB for high-resolution gaming, heavy multitasking (streaming, recording, etc.), or future-proofing. Speed also matters; faster RAM (measured in MHz, e.g., 3200MHz, 3600MHz) allows for faster data transfer, translating to smoother gameplay. Don’t overlook latency (CL), a lower number means quicker response times.
Form factor matters too: DIMMs are for desktop PCs, SO-DIMMs for laptops. Ensure compatibility with your motherboard. Overclocking RAM can boost performance, but requires careful research and potentially advanced BIOS settings; it’s not always stable and could void your warranty. Improper overclocking can even damage your system.
Beyond the raw numbers, consider the type of RAM (DDR4, DDR5). DDR5 offers significant speed advantages, but requires a compatible motherboard. Finally, while more RAM *can* improve your FPS, it’s rarely the *sole* limiting factor. A weak GPU or CPU will still bottleneck performance, regardless of your RAM capacity. Optimizing your game settings and drivers is equally crucial for maximum FPS.
Is 120 FPS overkill?
120 FPS? For a casual player, maybe. But for a PvP grinder like me? It’s the baseline. Anything less and you’re handicapping yourself. The difference between 60 and 120 is night and day in terms of reaction time and target acquisition. That extra smoothness translates directly to more kills.
Here’s the breakdown:
- Input Lag: Higher refresh rates minimize input lag, meaning your actions translate to onscreen events almost instantly. Crucial in fast-paced combat.
- Target Tracking: Smooth, high-FPS gameplay makes tracking moving targets significantly easier, especially in situations involving rapid strafing or unpredictable movement.
- Visual Clarity: The smoother motion at higher frame rates allows for better prediction of enemy movements and easier identification of subtle visual cues.
The “law of diminishing returns” is true to a point, but that point is far higher than 75-80 FPS for competitive play. The jump from 60 to 90 is huge, but the jump from 90 to 120 is still noticeable. Beyond 120? While there’s less of a *practical* advantage, the perceptual difference keeps the edge razor-sharp.
Game-specific considerations matter:
- Engine Limitations: Some game engines struggle to maintain consistency at very high frame rates, leading to unpredictable performance. Always benchmark.
- Network Latency: High ping negates the benefits of high FPS. Focus on reducing latency first.
- Visual Fidelity vs. Performance: Maximize your settings to take advantage of the FPS while maintaining acceptable visual quality. Experiment to find your sweet spot.
In short: For serious PvP, 120 FPS isn’t overkill; it’s a competitive necessity. Aim higher.
Is high FPS good or bad?
Higher FPS? Dude, absolutely. More frames per second means smoother gameplay, less input lag, and a massive competitive edge. Think of it like this: the higher your FPS, the more accurately your monitor reflects what’s happening in the game. At lower FPS, you’re seeing a slightly delayed, jerky version of reality. This is especially crucial in fast-paced games – imagine trying to snipe someone in a game like Apex Legends at 30 FPS versus 144 FPS or higher; it’s night and day.
But it’s not just about smoothness. Higher FPS can also reveal details you’d miss at lower refresh rates. Those subtle animations, the tiny enemy movements – they become crystal clear at higher FPS, giving you that extra edge to react faster and outplay your opponents. And let’s be real, a buttery-smooth gaming experience is just plain more enjoyable. It’s way less stressful on your eyes, too. Aim for at least 60 FPS for a decent experience, but the higher you go, the better it gets. 144Hz monitors are becoming increasingly common and affordable for a reason!
Now, obviously, higher FPS comes at a cost – you need a beefy rig to achieve it. But trust me, the upgrade is worth it, especially if you’re serious about gaming. It’s an investment in better performance and a much more enjoyable gaming experience.
How to get 100 FPS?
Alright, so you’re chasing that sweet 100 FPS? Let’s talk optimization. Before you go splashing cash on new hardware – always check your software first. Outdated drivers are FPS killers, especially graphics drivers. Make sure everything, from Windows to your game launchers, is fully updated. Then dive into your game’s settings.
Resolution is king. Lowering it drastically boosts FPS. Think 720p or even lower if needed. V-Sync? Turn it off. It caps your FPS to your monitor’s refresh rate, limiting potential gains. Anti-aliasing is a visual enhancer, but it’s a resource hog. Try lowering its settings or disabling it entirely. Shadows, reflections, and other graphical bells and whistles? Start turning them down. Find the balance between visual fidelity and performance.
Beyond in-game settings, check your background processes. Close any unnecessary programs running in the background. Resource monitors can help you identify CPU and RAM hogs. Consider overclocking your CPU and GPU (carefully, and only if you know what you’re doing!), as this can yield significant FPS improvements, but it does carry some risk. If all else fails, upgrading your CPU, RAM, or GPU (in that order generally) will be the next step, but remember, even then, optimization is key.
How can I fix my FPS?
Lagging behind? Boost your FPS!
Low FPS ruining your gaming experience? Don’t worry, we’ve got you covered. Here’s how to optimize your game and unleash the power of smooth gameplay:
- Close Background Processes: A sneaky CPU hog is often the culprit. Use Task Manager (CTRL+SHIFT+ESC) to identify memory and CPU-intensive applications and shut them down. Think streaming services, browser tabs, or resource-heavy programs. Prioritize your game!
- Game Updates are Your Friends: Developers regularly release patches that include performance optimizations. Check for updates – often a simple fix for FPS drops.
- Graphics Driver Update: Outdated drivers are a major FPS killer. Download the latest drivers from your GPU manufacturer’s website (Nvidia, AMD, or Intel) – it’s a game-changer.
- Community Power: Tweaks & Mods: Explore online communities dedicated to your game. Players often share performance-enhancing tweaks, mods, and configuration files that can dramatically improve FPS. Be cautious and download from trusted sources only. Some mods might even offer graphical settings specifically designed to improve performance.
- Game Repair: Corrupted game files can lead to performance issues. Most game launchers have a built-in repair function. Use it to scan and fix any damaged game files.
Bonus Tip: Consider lowering your in-game graphical settings. Turning down shadows, anti-aliasing, and texture quality can significantly boost FPS without noticeably impacting visuals.
Pro Tip: Monitor your CPU and GPU usage during gameplay using tools like MSI Afterburner or similar. This helps identify bottlenecks and pinpoint the cause of low FPS.
Is too high FPS bad?
The short answer is: it depends. While a higher FPS generally means smoother gameplay, exceeding your system’s capabilities or monitor’s refresh rate can lead to performance issues.
Problems Caused by Excessively High FPS:
- Stuttering: Your GPU might struggle to consistently render frames at an extremely high rate, leading to noticeable hiccups in gameplay. This is particularly common if your CPU is a bottleneck.
- Screen Tearing: This visual artifact occurs when your GPU renders frames faster than your monitor can display them. The result is visible tearing lines across the screen.
- Increased GPU and CPU Load: Rendering more frames per second requires significantly more processing power. This can lead to higher temperatures and potentially shorten the lifespan of your components. Excessive power draw can also increase your electricity bill.
- Diminishing Returns: Beyond a certain point, the visual improvement from increasing FPS becomes negligible, especially for the average player. Your eyes simply can’t perceive the difference beyond a certain threshold (usually around 144Hz for most people).
Optimizing for Smooth Gameplay:
- Match FPS to Refresh Rate: Ideally, your FPS should match or slightly exceed your monitor’s refresh rate (e.g., 60Hz monitor, aim for 60-75 FPS; 144Hz monitor, aim for 144-165 FPS). Using V-Sync or a FreeSync/G-Sync compatible monitor can help eliminate screen tearing.
- Monitor Your System Resources: Use monitoring software (like MSI Afterburner or HWMonitor) to check CPU and GPU usage while gaming. If they’re consistently at 100%, your system is bottlenecked and higher FPS is unattainable without upgrading hardware.
- Understand Bottlenecks: Determine if your CPU, GPU, or RAM is limiting your performance. Upgrading the bottleneck component will yield the most significant performance improvements.
- Adjust In-Game Settings: Lowering graphics settings like shadows, textures, and anti-aliasing can significantly improve FPS without drastically impacting visual quality.
In essence, aim for a smooth and consistent framerate that matches your monitor’s capabilities without overloading your hardware. Chasing excessively high FPS is often unnecessary and potentially detrimental to performance and component longevity.
Is 200 FPS overkill?
200 FPS? Overkill? That’s a loaded question, my friends. See, back in the day, 60 FPS was the holy grail. Smooth as butter, right? But then monitors started pushing higher refresh rates, and suddenly, 60 felt… sluggish. It’s all about perception.
The truth is, there’s no magic number. Some folks swear by 200 FPS for competitive shooters, arguing that the extra frames provide a tangible advantage – quicker reactions, smoother tracking. They’ll tell you it’s the difference between winning and losing. I’ve experienced that myself in titles like Counter-Strike and Apex Legends. The difference is subtle, but it exists.
However, for single-player experiences, especially story-driven games, the gains diminish significantly. You might not notice the jump from 60 to 120, let alone 200. The added cost and the strain on your hardware might outweigh the benefits in those scenarios.
Here’s a breakdown to help you decide:
- Competitive Multiplayer: Higher is better. Aim for the highest your setup can handle smoothly, potentially 200 FPS or even higher. The responsiveness is crucial here.
- Single-Player/Story-Driven Games: 60 FPS is generally sufficient. The difference between 60 and 200 is less noticeable in these games unless you’re extremely sensitive to it. Consider the cost/performance ratio.
- Hardware Limitations: Let’s be real. Running 200 FPS consistently requires a beastly rig. If your PC struggles, targeting a stable 120 or even 60 FPS is better than fluctuating frame rates.
Ultimately, it boils down to your priorities and your hardware capabilities. Experiment, see what feels best for *you*, and adjust your settings accordingly. Don’t chase numbers blindly; focus on a smooth, consistent experience.
Consider these points:
- Your monitor’s refresh rate – running at 200 FPS on a 60Hz monitor is pointless.
- Input lag – even with high FPS, high input lag can negate the benefits.
- Your personal preference – some people are more sensitive to frame rate differences than others.
Is 300 FPS good for gaming?
300 FPS? That’s not just good, it’s elite. We’re talking about a level of smoothness that transcends mere gameplay; it’s about achieving a state of flow. The difference between 60 and 300 FPS isn’t just a number; it’s a qualitative leap. At 300 FPS, input lag becomes virtually imperceptible, translating to lightning-fast reactions. Think of it as the difference between reacting to an event and *predicting* it. This is crucial in competitive titles where milliseconds decide victory or defeat.
The consistency is key. Forget those frustrating frame drops and stutters that throw off your aim or timing. 300 FPS provides unwavering stability, allowing for precise, consistent performance. This unwavering consistency isn’t just about feeling good; it’s about gaining a competitive edge. Imagine the advantage of perfectly tracking a fast-moving target without the slightest hiccup – that’s the power of a high, consistent frame rate.
Beyond the numbers: While many believe high refresh rate monitors are necessary to fully utilize 300 FPS, even on a lower refresh rate monitor, the benefits are noticeable. The reduced input lag alone is a significant upgrade. Your system’s responsiveness will be dramatically improved, leading to better decision-making under pressure. It’s an investment in your skill and your potential to dominate.
Is 1% FPS low?
One percent low? Nah, that’s a red flag, especially in demanding games. See, average FPS is a nice headline number, but it’s a lie. It doesn’t tell you about those brutal dips that ruin your experience. That 1%, and even the 0.1%, low FPS – those are the moments where the game stutters, where you’ll die because of a lag spike, where that boss’s attack animation suddenly looks like a slideshow. They represent the absolute worst-case scenario your hardware’s gonna throw at you. A huge difference between your average FPS and your 1% low suggests inconsistency; your game’s gonna be choppy as hell. You want those numbers as close as possible. Think of it like this: a smooth 60 average FPS with a 55 1% low? Pretty solid. A 60 average with a 30 1% low? Prepare for frustration. That’s why I always check these low percentiles before I start tweaking settings; it’s far more informative than just glancing at that average FPS number.
Is 32GB RAM overkill?
32GB RAM? Nah, that’s not overkill, especially if you’re serious about gaming or content creation. For casual browsing and document editing, 8-16GB is fine, sure. But we’re talking high-refresh-rate monitors, demanding games at max settings, and complex editing software. Think about it: streaming, recording gameplay at 4K, running multiple resource-intensive programs simultaneously – that’s where 32GB shines. It’s future-proof. You’ll avoid the frustrating stutters and lag that kill your performance and your K/D ratio. It’s a smoother experience, allowing for faster load times and better multitasking, crucial for maintaining peak performance during intense matches or long rendering sessions. Those extra gigs mean less swapping to the hard drive, which translates directly to better frame rates and responsiveness. It’s an investment – a serious one, but worth it for the competitive edge and overall better workflow.
What is 1 low FPS?
1% low FPS? That’s the metric that separates the wheat from the chaff, kid. Average FPS is a lie, a sugary promise whispered by marketing weasels. It hides the stuttering, the frametime spikes that’ll make you ragequit faster than you can say “rubberbanding.” Think of it this way: you’re cruising along at 60 FPS, feeling smooth as butter, then BAM! A single frame takes 2 seconds to render. Average FPS will still look pretty, but your experience? A slideshow of epic proportions.
1% low takes the bottom 1% of your frametimes – the absolute worst of the worst – and averages *those*. It’s the brutal truth, the raw, unfiltered data that tells you how often your game will actually feel like it’s chugging. A high 1% low means smooth sailing, even during intense moments. A low 1% low? Prepare for a slideshow, or maybe even a PowerPoint presentation, depending on how bad it is.
Pro tip: Don’t just look at the number. Pay attention to the *difference* between your average FPS and your 1% low. A large gap screams “optimization issues,” and points to potential problems with your hardware, drivers, or the game itself. A small gap? You’re golden, smooth framerate heaven awaits.
Forget average FPS. 1% low is where the real action is, where you separate the playable from the unplayable. It’s the ultimate benchmark for a buttery-smooth gaming experience.
Is 16GB of RAM enough for gaming?
16GB of RAM is generally sufficient for gaming at 1080p and even 1440p at medium to high settings for most titles. However, it’s the bottleneck you least want to hit. A RAM shortage will cause noticeable stuttering and performance drops, particularly in more demanding games or when streaming. Think of it like this: your CPU and GPU are like the engine and transmission of your gaming rig – powerful, but useless without enough fuel (RAM) to keep them running smoothly.
While upgrading later is always possible, it’s usually more cost-effective to invest in a suitable amount upfront. Prioritize a powerful GPU first; that’s where you’ll see the biggest performance gains in most situations. Consider a solid CPU as well, making sure it’s paired with enough RAM to avoid bottlenecking. If you’re on a budget, 16GB is a reasonable starting point, but keep an eye on your RAM usage during gameplay. If it consistently maxes out, it’s a clear indication you need an upgrade. Consider 32GB if you’re gaming at higher resolutions (1440p, 4K), streaming, or using demanding applications concurrently.
Is 100 Hz good for gaming?
100Hz? Absolutely! It’s a solid step up from 60Hz, noticeably smoother. You’ll see a real difference in responsiveness, especially in fast-paced games. Less input lag means your actions translate to onscreen results quicker – a huge advantage in competitive titles. Think of it like this: 60 frames per second show you 60 snapshots of the game every second. 100Hz gives you 100, painting a much clearer, more fluid picture of what’s happening. That extra clarity can be the difference between a win and a loss.
But here’s the thing: Your GPU needs to keep up. If your graphics card can’t consistently push out at least 100 frames per second, you won’t see the full benefit. A bottleneck anywhere in your system – CPU, GPU, or even your internet connection for online games – will negate the advantages of the higher refresh rate. Make sure to check your in-game FPS (frames per second) to ensure you’re utilizing the 100Hz capability fully. Aim for a consistent 100fps or higher for the optimal 100Hz experience.
Consider this: While 100Hz is a great entry point into high refresh rate gaming, 144Hz and even 240Hz monitors offer even smoother gameplay. The jump from 60Hz to 100Hz is substantial, but the differences become more subtle as you climb higher. However, the incremental improvements are still noticeable and worthwhile for serious gamers.
Is 500 FPS overkill?
While the commonly cited limit of human visual perception is around 60fps, this is a simplification. While the *perceived* smoothness plateaus around this point for most static scenes, dynamic and high-speed scenarios benefit significantly from higher frame rates. 500fps is indeed overkill for casual gaming or standard gameplay, where the difference between 60fps and 120fps is often more noticeable than the jump to 500fps. However, competitive gaming, particularly in fast-paced titles like esports shooters, can leverage higher refresh rates for a competitive edge. The reduction in motion blur at 500fps allows for more precise target acquisition and reaction time, giving players a crucial advantage even if the difference isn’t consciously perceived. Furthermore, high frame rates offer advantages in post-processing and replay analysis, enabling more accurate motion tracking and smoother slow-motion effects.
The diminishing returns argument is valid when considering pure visual perception, but factors like input lag and processing latency become increasingly crucial at higher frame rates. A system struggling to maintain 500fps will introduce more input lag than a system smoothly running at 144fps or even 240fps. Therefore, the actual benefits of 500fps are highly dependent on the capabilities of the entire system, including monitor refresh rate, processor power, and input device response times. The ideal frame rate isn’t a fixed number, but rather a balance between visual fidelity, competitive advantage, and system performance.
For most players, targeting a range between 120fps and 240fps represents a sweet spot offering a significant improvement over 60fps without the impractical demands and diminishing returns of significantly higher frame rates like 500fps. However, advancements in display technology and competitive gaming continue to push the boundaries of what’s considered practical, and for specialized applications, even 500fps can prove beneficial.
