At Groovy Computers, we've built hundreds of gaming PCs over the years. NVIDIA RTX has completely changed the game when it comes to graphics performance. Whether you're a casual gamer or a serious content creator, understanding what RTX brings to the table is key for making the right GPU choice in 2025.
Key Takeaway
- NVIDIA RTX graphics cards dominate over 90% of the GPU market with cutting-edge ray tracing and AI-powered features like DLSS
- The new RTX 50 series delivers up to 2x performance gains with DLSS 4 Multi Frame Generation technology
- RTX cards range from budget-friendly options like the RTX 4060 at $549 to flagship models like the RTX 5090 at $1,999
- Ray tracing and DLSS improve gaming visuals and performance, but require careful thought about your resolution and refresh rate needs
- Power use has jumped significantly, with top-tier cards like the RTX 5090 requiring 575W and strong cooling solutions
- Actual retail prices often exceed MSRPs by $200 or more due to high demand from gamers, AI researchers, and content creators
What is NVIDIA RTX and Why Does It Matter?
NVIDIA RTX represents the biggest leap in graphics technology we've seen in decades. The "RTX" stands for Ray Tracing Texel eXtreme, and it's NVIDIA's brand for graphics cards that combine traditional rendering with real-time ray tracing and AI acceleration.
Think of it this way. Traditional graphics cards render scenes by projecting 3D objects onto your 2D screen using a method called rasterization. It's fast but has limits with realistic lighting and reflections. RTX cards add special hardware that mimics how light actually behaves in the real world.
When we first saw Portal with RTX running on an RTX 4090 at our shop, the difference was jaw-dropping. Light bounces realistically off surfaces, reflections are pixel-perfect, and shadows behave exactly as they would in real life. This isn't just about prettier graphics – it changes how immersive games feel.
The RTX platform launched in 2018 with the RTX 20 series. We've now gone through the RTX 30 series, RTX 40 series, and in January 2025, NVIDIA released the groundbreaking RTX 50 series powered by the new Blackwell architecture.
The Latest RTX 50 Series: What's New
The RTX 50 series represents NVIDIA's most ambitious GPU launch yet. Built on the Blackwell architecture, these cards push boundaries in every way.
The flagship RTX 5090 packs 21,760 CUDA cores compared to the RTX 4090's 16,384. It comes with 32GB of cutting-edge GDDR7 memory on a 512-bit bus, delivering massive bandwidth improvements over previous GDDR6X technology. We've tested this card, and the performance is seriously impressive.
At 4K resolution with maximum settings in Cyberpunk 2077, the RTX 5090 averaged 181 FPS compared to the RTX 4090's 138 FPS. That's a 31% performance increase in one of the most demanding games available.
But here's the catch – the RTX 5090 draws 575 watts of power. You'll need a robust power supply, excellent cooling, and you should check if your electrical outlets can even handle it.
The RTX 5080 sits below it at 360W with strong 4K performance. The RTX 5070 Ti and RTX 5070 target 1440p and high-refresh 1080p gaming at 300W and 250W. All three use GDDR7 memory, though with less capacity than the flagship.
Clock speeds are impressive across the board. The RTX 5080 boosts to 2.62 GHz, the RTX 5070 Ti hits 2.45 GHz, and the RTX 5070 reaches 2.51 GHz. These high speeds combined with architectural improvements deliver serious frame rate gains.
Understanding DLSS: NVIDIA's AI Game-Changer
If you've heard one thing about RTX cards, it's probably DLSS. Deep Learning Super Sampling is truly game-changing, and I say that from years of testing at Groovy Computers.
DLSS uses special Tensor cores in RTX GPUs to run AI models that upscale lower-resolution images to higher resolutions. Sounds complicated, but the result is simple – you get way higher frame rates with minimal visual quality loss.
The newest version, DLSS 4, debuts with the RTX 50 series and brings Multi Frame Generation. This technology can create up to three additional frames for every traditionally rendered frame. Combined with Super Resolution and Ray Reconstruction, DLSS 4 can provide up to 8x performance boost in supported games.
We've watched DLSS evolve since the first version, and the improvements have been substantial. DLSS 2 built the foundation with excellent upscaling quality. DLSS 3 brought Frame Generation to RTX 40 series cards, creating in-between frames to boost performance. DLSS 4 takes it further with Multi Frame Generation exclusive to RTX 50 series.
According to NVIDIA's data, 79% of RTX 40 series users enable DLSS, compared to 71% of RTX 30 series users and 68% of RTX 20 series users. That growing adoption shows gamers see the value.
Over 840 games and applications now support DLSS technologies. Major releases like Stellar Blade, Mecha BREAK, and Lost Soul Aside launched with day-one DLSS 4 support. This extensive library means you'll actually use these features rather than having them sit idle.
Ray Tracing Explained: Why It's Worth the Performance Hit
Ray tracing simulates the physical behavior of light rays as they travel through a scene. Instead of faking reflections and shadows like traditional rendering, ray tracing calculates how light actually bounces between surfaces.
The RTX 50 series features fourth-generation RT cores that accelerate these calculations. Without specialized ray tracing hardware, your GPU would slow to a crawl trying to render even simple ray-traced scenes in real time.
Games implement ray tracing in different ways. Some titles like Cyberpunk 2077's RT Overdrive mode use full path tracing, replacing traditional rendering entirely. Others selectively apply ray tracing to specific effects like reflections in puddles or realistic shadows under objects.
The performance impact varies considerably. Full path tracing in Cyberpunk 2077 can cut frame rates in half even on an RTX 5090. Selective ray tracing might only drop performance by 20-30%.
This is where DLSS becomes essential. Enabling DLSS alongside ray tracing often gives you better performance than native resolution without ray tracing, while looking significantly better. It's the combination of these technologies that makes RTX special.
Our team tested Alan Wake 2 with and without ray tracing on an RTX 4080. Without RT, the game looked good but somewhat flat. With RT enabled plus DLSS, the lighting became far more realistic while maintaining smooth frame rates. That's the RTX experience in a nutshell.
RTX Performance Across Generations
The jump from RTX 20 series to RTX 50 series shows steady improvements, though the gains aren't always equal.
The RTX 30 series brought massive gains over the RTX 20 series, nearly doubling performance in many cases. The RTX 40 series improved on that foundation with better efficiency and the introduction of DLSS 3 Frame Generation.
Now the RTX 50 series pushes performance even higher. The RTX 5090 delivers about 31% more frames than the RTX 4090 at 4K, and around 25% more at 1440p. Even at 1080p where CPU bottlenecks become apparent, you'll see noticeable improvements.
Mid-range cards show similar scaling. The RTX 5070 matches or beats RTX 4080 performance in many games, while the RTX 5080 competes with the previous generation's flagship RTX 4090 in certain titles.
For AI and creative work, the improvements are even more substantial. The RTX 4090 showed 1.3x to 1.9x higher training speed compared to the RTX 3090 depending on model complexity. The RTX 5090 builds on those gains with more CUDA cores and faster memory.
Power consumption has steadily increased though. The RTX 3090 used 350W, the RTX 4090 required 450W, and now the RTX 5090 demands 575W. You're trading efficiency for raw performance at the high end.
Choosing the Right RTX Card for Your Needs
Picking the right RTX card depends on your resolution, refresh rate targets, and budget. Let me break down what works best for different scenarios.
For 1080p gaming at 60-120 FPS, the RTX 4060 offers great value at around $549. It handles modern games smoothly with medium to high settings and supports DLSS for extra performance headroom. The RTX 5070 at $749 gives you more power if you want maximum settings or high refresh rates above 144Hz.
At 1440p, you're looking at the RTX 4070 or RTX 5070 Ti as sweet spots. These cards deliver 60+ FPS in demanding titles with high settings and ray tracing enabled. In my experience at Groovy Computers, these are the most popular choices for serious gamers.
For 4K gaming, you need serious horsepower. The RTX 4080 provides solid 4K performance at 60 FPS with ray tracing in most games. The RTX 5080 pushes that to 80-100 FPS in many titles. The RTX 5090 is overkill for pure gaming but makes sense if you also do content creation or AI work.
Content creators should think carefully about VRAM capacity. Video editing and 3D rendering benefit from more memory. The RTX 5090's 32GB handles massive projects, while the RTX 5080 and 5070 Ti offer 16GB which works for most professional workflows.
AI and machine learning users will want maximum CUDA cores and memory. The RTX 4090 and RTX 5090 excel here, with the 5090's GDDR7 memory providing faster training times for large models.
Budget matters too. RTX 40 series cards offer compelling value now that RTX 50 series has launched. You can often find RTX 4070 cards for much less than RTX 5070 models, and the performance difference is modest in many games.
The Current RTX Market: Pricing and Availability
Here's where things get frustrating. NVIDIA announces MSRPs that sound reasonable, but actual retail prices tell a different story.
The RTX 5090's $1,999 MSRP quickly became irrelevant. We've seen street prices consistently around $3,000 or higher. The RTX 5080 at $999 MSRP often sells for $1,200+. You have basically zero chance of buying RTX 50 series cards at announced prices.
This pricing gap stems from multiple factors. Supply constraints affect availability, especially for GDDR7 memory modules needed in RTX 50 series cards. High demand from gamers, AI researchers, and cryptocurrency miners creates bidding wars. Some suggest NVIDIA and partners intentionally limit supply to maintain high pricing.
The RTX 40 series shows similar patterns though prices have stabilized somewhat. The RTX 4060 typically sells near its $549 MSRP since it's been available longer. Higher-tier models like the RTX 4090 remain expensive and hard to find.
NVIDIA holds over 90% of the discrete GPU market as of Q1 2025. AMD controls about 10% with Intel barely registering. This market dominance reduces competitive pressure on pricing.
If you're shopping for RTX cards, expect to pay $200-500 above MSRP depending on the model. Watch for sales or consider previous-generation cards if budget is tight. The RTX 4070 offers excellent value compared to RTX 5070 pricing.
Real-World Gaming Performance
Benchmarks tell part of the story, but real-world gaming experiences reveal how RTX cards actually perform.
In Cyberpunk 2077 with ray tracing and DLSS enabled, builds we've tested with the RTX 4080 deliver 70-80 FPS at 4K with high settings. That's smooth enough for immersive single-player gaming. An RTX 5090 pushes that to 120+ FPS at the same settings.
Competitive multiplayer titles like Call of Duty benefit from high refresh rates. An RTX 4070 easily maintains 144+ FPS at 1440p in Warzone with optimized settings. The RTX 5070 pushes that to 200+ FPS for ultra-competitive play.
Path-traced games like Portal with RTX showcase RTX cards at their best. These titles look incredible but demand serious hardware. An RTX 4090 runs Portal with RTX at 60-80 FPS at 4K. An RTX 5090 doubles that to 120+ FPS with DLSS 4.
Older or less demanding games show diminishing returns from top-tier cards. If you mainly play esports titles like Valorant or Counter-Strike, even an RTX 4060 provides more performance than you need.
DLSS makes a tremendous difference in demanding games. Without it, ray tracing often cuts performance too much for smooth gameplay. With DLSS Quality mode, you get better visuals than native resolution while maintaining high frame rates.
We've also tested content creation workflows. Adobe Photoshop AI effects process 43% faster on RTX hardware compared to CPU processing. DaVinci Resolve exports 4K video considerably faster when using RTX encoding features.
RTX for Content Creation and Professional Work
Gaming gets the headlines, but RTX cards have become essential tools for creative professionals.
NVIDIA markets RTX Studio specifically for content creators, with optimized drivers and certified application support. This matters because stability and reliability beat raw performance in professional work.
Video editors benefit from hardware-accelerated encoding and AI features. Programs like DaVinci Resolve and Adobe Premiere Pro use RTX cards for real-time effects processing and faster exports. Based on our experience at Groovy Computers, we've seen 4K timeline playback go from stuttering to smooth after upgrading to an RTX 4070.
3D rendering workflows have been transformed by RTX ray tracing acceleration. Applications like Blender, Autodesk Arnold, and Chaos V-Ray achieve render times up to 5.6x faster using RTX hardware compared to CPU rendering. This enables real-time previews that fundamentally change creative workflows.
AI-enhanced creative tools increasingly depend on RTX hardware. NVIDIA Broadcast provides real-time background removal, noise reduction, and eye contact correction for streamers. RTX Video Super Resolution automatically enhances video playback quality in web browsers.
The RTX 5090's 32GB memory capacity makes it particularly valuable for professionals working with massive 3D scenes, high-resolution video, or complex AI models. You can load entire projects into VRAM instead of constantly swapping data with system RAM.
Streaming setups benefit from RTX encoding features. OBS Studio integration with RTX hardware can provide up to 3x higher frame rates while live streaming compared to CPU encoding. You maintain gameplay performance while producing high-quality streams.
Power Consumption and System Requirements
The elephant in the room with modern RTX cards is power consumption. These cards are seriously power-hungry.
The RTX 5090's 575W requirement is no joke. You'll need at least a 1000W power supply, ideally 1200W to leave headroom for the rest of your system. Make sure it's a quality unit with proper PCIe power connectors.
Cooling becomes critical at these power levels. The RTX 5090 generates massive heat that requires excellent case airflow or custom liquid cooling. We've seen temperatures climb rapidly in restricted airflow situations.
The 12VHPWR power connector used in RTX 40 and 50 series cards has caused issues. Thousands of RTX 4090 units experienced melting power connectors, raising serious reliability concerns. While NVIDIA and partners have made design improvements, reports of failures continue to surface.
Mid-range RTX cards are more reasonable. The RTX 4070 and RTX 5070 require 250W, manageable with a 650-750W power supply. These cards fit in standard two-slot configurations without extreme cooling demands.
Your overall system power draw matters too. A high-end RTX build with an i9-14900K and RTX 5090 can pull over 800W under full load. Consider whether your electrical circuit can handle sustained high power draw without tripping breakers.
Efficiency has improved per watt despite higher total consumption. The RTX 4090 delivers significantly more performance per watt than the RTX 3090. But absolute power requirements continue climbing for flagship cards.
Common RTX Issues and Controversies
RTX technology isn't perfect, and several controversies affect the platform.
Driver stability has become a significant concern, particularly for RTX 40 series users. Recent 572.xx GeForce drivers have caused system crashes and game-breaking bugs serious enough that developers warn users to roll back to older versions. This suggests NVIDIA prioritizes RTX 50 series optimization over maintaining stability for previous-generation hardware.
The power connector failures on RTX 4090 cards represent the most serious hardware issue. Initial claims that improper connector insertion caused failures have been disproven by real-world evidence. Failed units show consistent patterns suggesting fundamental design issues with the 12VHPWR standard at extreme power levels.
Pricing controversies continue to frustrate consumers. The gap between announced MSRPs and actual retail prices creates skepticism about NVIDIA's marketing. Many feel the company intentionally under-supplies cards to maintain elevated pricing.
DLSS and frame generation effectiveness varies between games. While some implementations work brilliantly, others show noticeable artifacts or add input lag. Competitive gamers particularly question whether AI-generated frames provide genuine benefits.
The AI boom has created availability problems for gamers. Many RTX 4090 and 5090 units go to AI researchers and businesses willing to pay premium prices. Traditional gaming customers compete with buyers who can justify higher costs based on commercial returns.
Market dominance concerns arise from NVIDIA's 90%+ market share. Reduced competition may slow innovation and keep prices elevated. AMD and Intel struggle to offer compelling alternatives despite releasing competitive products.
How RTX Compares to AMD Alternatives
AMD's Radeon cards provide alternatives to RTX, though with different strengths and trade-offs.
The RX 7900 XTX competes with RTX 4080 pricing while offering similar rasterization performance. In traditional rendering without ray tracing, AMD cards often match or exceed NVIDIA equivalents. The RX 7900 XT provides solid 4K performance at competitive prices.
Ray tracing performance strongly favors NVIDIA. AMD's RDNA 4 architecture in the RX 9070 XT improves ray tracing considerably compared to previous generations, but still trails RTX cards by 20-30% in ray-traced workloads.
AMD's FSR (FidelityFX Super Resolution) has improved with FSR 4, now using AI techniques similar to DLSS. However, DLSS enjoys broader game support with over 840 titles compared to FSR's smaller library. Image quality generally favors DLSS in head-to-head comparisons.
Frame generation features differ substantially. AMD offers 2x frame generation while NVIDIA's DLSS 4 can generate 3-4x frames. This multiplier advantage gives RTX cards significant performance leads in supported titles.
Power efficiency tends to favor AMD at mid-range pricing. The RX 7700 XT delivers strong 1440p performance while using less power than comparable RTX cards. This matters for users with power consumption or heat concerns.
Value depends on market segment. AMD cards sometimes offer better price-to-performance in pure rasterization, while RTX cards command premiums for ray tracing and AI features. Your priorities determine which platform makes sense.
Professional and AI workloads strongly favor NVIDIA. CUDA ecosystem support and mature software integrations give RTX cards massive advantages in content creation and machine learning applications. AMD struggles to compete in these markets despite competitive hardware.
Building a System Around RTX Cards
Planning a build around RTX hardware requires careful part selection to avoid bottlenecks.
CPU choice matters considerably. High-end RTX cards like the 5090 need powerful processors to prevent bottlenecks. I recommend Intel i7-14700K or AMD Ryzen 7 9800X3D minimum for RTX 5080 and above. Mid-range cards pair well with i5-13600K or Ryzen 7 7800X3D processors.
Memory requirements have increased with modern games. 32GB DDR5 represents the sweet spot for gaming and light content creation. Heavy workloads benefit from 64GB. Speed matters too – DDR5-6000 provides noticeable improvements over DDR5-4800 in gaming scenarios.
Storage should focus on NVMe SSDs. Modern games load assets on the fly, and fast storage reduces stuttering. I recommend 1TB minimum for your primary drive, with 2TB preferred if you maintain a large game library.
Motherboard selection impacts features and expandability. Ensure your board supports PCIe 4.0 or 5.0 for maximum GPU performance. Built-in WiFi and Bluetooth add convenience. Quality power delivery matters for high-end CPUs paired with RTX cards.
Case choice affects cooling and noise. RTX 5090 builds need excellent airflow with multiple intake and exhaust fans. Mid-tower cases work for most builds, but full towers provide better thermal performance for extreme setups.
Monitor selection should match your GPU capabilities. An RTX 4060 pairs well with 1080p 144Hz displays. RTX 4070 and 5070 cards shine on 1440p 165Hz monitors. RTX 5080 and 5090 justify 4K 144Hz displays to utilize their full potential.
The Future of RTX Technology
Looking ahead, RTX technology will continue evolving in several directions.
AI integration will deepen across gaming and creative applications. NVIDIA invests heavily in AI development, and future RTX cards will likely feature more powerful Tensor cores for enhanced AI processing. Expect new AI-powered features beyond current DLSS and ray tracing capabilities.
Ray tracing will become more comprehensive. As RT core performance improves, full path tracing will become standard rather than optional in flagship titles. Game developers increasingly design around ray tracing rather than treating it as an add-on feature.
Power consumption trends suggest continued increases at the high end, though mid-range cards may improve efficiency. The industry needs to address sustainability concerns as GPUs consume more power across generations.
Memory technology will continue advancing. GDDR7 debuts with RTX 50 series, and future generations may introduce even faster memory standards. Memory capacity will grow to support increasingly detailed textures and larger gaming worlds.
Competition from AMD and Intel may intensify if they can close the ray tracing and AI acceleration gaps. However, NVIDIA's ecosystem advantages create significant competitive moats that will be difficult to overcome.
Professional and enterprise markets will drive substantial RTX adoption as AI workloads become more common. This could affect gaming card availability and pricing as demand from commercial users competes with consumer markets.
Cloud gaming services may reduce some pressure for high-end local hardware. However, serious gamers and professionals will continue demanding local RTX hardware for minimal latency and maximum control.
Making Your RTX Purchase Decision
When you're ready to buy, several factors should guide your decision.
Resolution and refresh rate targets should drive your GPU selection. Be realistic about what you actually play and at what settings. An RTX 4070 might serve you better than an RTX 5090 if you mainly game at 1440p.
Budget realistically by adding $200-500 to announced MSRPs for current-generation cards. If that pushes you over budget, consider previous-generation RTX cards that offer excellent value. The RTX 4070 Ti regularly beats newer RTX 5070 cards at similar or lower prices.
Warranty coverage varies between manufacturers. EVGA, ASUS, and MSI typically offer 3-year warranties on RTX cards. Some boutique brands provide shorter coverage. Extended warranties make sense for expensive flagship models.
Upgrade timing matters significantly. Buying near launch means paying maximum prices for limited availability. Waiting 3-6 months typically brings better availability and more realistic pricing, though you miss out on using the latest hardware.
Used market options require caution around mining cards or units with heavy usage history. Previous-generation RTX cards can offer great value if purchased from reputable sellers with transferable warranties.
System compatibility requires checking physical dimensions, power requirements, and PCIe slot availability. Measure your case carefully. Verify your power supply has adequate wattage and proper connectors. Confirm your motherboard supports the card.
Future-proofing is somewhat overrated. Buy what serves your current needs rather than guessing about requirements three years from now. Technology advances too rapidly for meaningful future-proofing beyond one generation.
Frequently Asked Questions
What does RTX stand for and what makes it different from GTX? RTX stands for Ray Tracing Texel eXtreme and represents NVIDIA's graphics cards with dedicated ray tracing and AI acceleration hardware. GTX cards use traditional rendering, while RTX cards add specialized RT cores for real-time ray tracing and Tensor cores for AI features like DLSS. The difference is substantial, with RTX cards delivering more realistic lighting, reflections, and AI-powered performance boosts that GTX cards simply cannot match.
Is DLSS really worth using or does it reduce image quality too much? DLSS is absolutely worth using in most cases, especially DLSS Quality and Balanced modes which maintain excellent image quality. Modern DLSS 4 often produces better results than native resolution rendering by using AI to reconstruct fine details and reduce noise. The performance gains are substantial, typically 40-100% higher frame rates depending on settings. Some competitive gamers prefer native rendering for absolute minimal latency, but for the vast majority of users, DLSS provides free performance with minimal visual trade-offs.
How much power supply wattage do I need for an RTX 5090? For an RTX 5090 system, you'll need a minimum 1000W power supply, though I recommend 1200W to provide adequate headroom for the entire system. The RTX 5090 alone draws 575W, and when combined with a high-end CPU, motherboard, RAM, and storage, total system power draw can exceed 800W under full load. Make sure your PSU has the proper 12VHPWR connector and comes from a reputable manufacturer like Corsair, EVGA, or Seasonic to handle sustained high-power operation reliably.
Should I buy an RTX 4090 now or wait for RTX 5090 prices to drop? If you need a high-end GPU immediately, the RTX 4090 offers excellent value since RTX 5090 retail prices currently sit around $3,000 versus the announced $1,999 MSRP. The 4090 handles 4K gaming beautifully and costs significantly less right now. However, if you can wait 3-6 months, RTX 5090 availability should improve and prices may come closer to MSRP. For most users, the RTX 4080 or 4070 Ti provides better overall value than either flagship option.
Does ray tracing work well on mid-range RTX cards like the 4070? Yes, ray tracing performs surprisingly well on mid-range RTX cards when combined with DLSS. The RTX 4070 handles selective ray tracing effects easily at 1440p, delivering 60+ FPS in most titles with DLSS enabled. Full path tracing requires more powerful hardware, but most games use selective ray tracing that works great on mid-tier cards. You won't max out every ray tracing setting at 4K on an RTX 4070, but at 1440p with DLSS Quality mode, you'll get beautiful ray-traced visuals with smooth performance.
Can I use an RTX card for AI and machine learning projects? Absolutely, RTX cards excel at AI and machine learning work thanks to their Tensor cores and CUDA support. The RTX 4090 and 5090 particularly shine for training neural networks and running inference, offering data center-level performance at consumer prices. For serious AI work, focus on cards with maximum VRAM since memory capacity often limits what models you can run. The RTX 5090's 32GB handles large language models and complex AI tasks that smaller cards struggle with.
Why do RTX cards cost so much more than the announced prices? RTX retail prices exceed MSRPs due to limited supply, high demand from multiple market segments, and memory supply constraints for advanced GDDR6X and GDDR7 modules. NVIDIA produces limited quantities while demand comes from gamers, AI researchers, content creators, and businesses willing to pay premiums. Some industry observers suggest NVIDIA and partners intentionally restrict supply to maintain elevated prices. The result is street prices typically $200-500 above announced MSRPs, especially for current-generation cards.
How long will an RTX 4070 remain relevant for gaming? An RTX 4070 should handle modern games well for at least 3-4 years at 1440p resolution with high settings. The card's 12GB VRAM provides headroom for future games, and DLSS support extends its lifespan by maintaining performance as games become more demanding. You may need to reduce settings to medium or use DLSS Performance mode in the most demanding titles 3+ years from now, but the 4070 will remain a capable gaming card for the foreseeable future, especially at 1080p and 1440p resolutions.
Ready to build your ultimate gaming PC? Explore our collection of high-performance gaming PCs featuring the latest NVIDIA RTX graphics cards. Whether you're looking for a budget-friendly 1080p gaming system, a powerful 1440p setup, or an elite 4K gaming rig, we have customizable builds to match your needs and budget.
For those seeking the absolute best, check out our RTX 5090 32GB gaming PCs or the #1 Fastest Gaming PC featuring the Ryzen 7 9800X3D and RTX 5090. If you're a content creator or streamer, explore our specialized video editing PCs and streaming gaming PCs optimized for professional workflows.
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