Choosing a GPU? Let’s break it down, noob. First, the GPU manufacturer: Nvidia’s generally more expensive, but often offers better performance and features like DLSS. AMD is a solid budget alternative, sometimes offering comparable performance at a lower price. Don’t sleep on their FidelityFX Super Resolution either – it’s a killer.
Next, the GPU family (e.g., RTX 40 series, Radeon RX 7000 series). This determines the architecture and overall capabilities. Newer is usually better, but generational leaps aren’t always massive. Check benchmarks; sometimes a last-gen flagship will smoke a current-gen budget card.
Then you have the model number. A 4080 is way better than a 4060, duh. The generation number (40, 70, etc.) indicates the architecture; higher numbers = newer architecture = (usually) better performance and features. But don’t forget to look at the actual series and alphanumeric suffix (e.g., RTX 4080, RX 7900 XTX). These subtle differences can impact performance significantly – a 4080 is different than a 4080 Ti, even if it only seems like a tiny difference.
Knowing how to deconstruct the name is key: An RTX 4070 Ti is a slightly cut-down 4080 in many cases; a 4060 Ti 16GB is much better than the 8GB version. Always research specifics. Don’t just look at the first number!
Vendor matters too. Different board partners (ASUS, MSI, Gigabyte, etc.) offer different cooling solutions and overclocking capabilities. Some are better overclockers than others, leading to better performance at the same price. Research which vendors offer the best cooling for your environment.
Finally, ray tracing. It’s pretty, but demanding. Consider if you prioritize it; you’ll need a beefier card. Make sure your games and preferred settings support it if that’s important to you.
Which is a better graphics card, RTX or GTX?
Alright guys, so you’re wondering about RTX vs. GTX, huh? Let’s break it down. The short answer is, RTX is generally better, but it comes at a price.
RTX cards, specifically those with the “RT Cores,” offer ray tracing. Think hyper-realistic reflections, shadows, and lighting. It’s the next level of visual fidelity, making games look absolutely stunning. We’re talking about realistic water, believable glass, and shadows that actually behave like shadows. It’s a game changer, but it’s resource-intensive.
GTX cards are older tech. They’re still perfectly capable for gaming, especially at lower resolutions or if you’re not too worried about the most cutting-edge visuals. They’re a solid option for budget builds or if you’re playing older games that don’t utilize ray tracing.
- RTX Advantages: Ray tracing, DLSS (which boosts performance while maintaining image quality), generally better performance in newer games.
- GTX Advantages: Cheaper, sufficient for older games and less demanding titles, great value for budget gaming.
Beyond gaming, RTX cards are also beasts for 3D modeling, video editing, and other creative tasks. The extra horsepower makes rendering times significantly faster. Think hours shaved off your workflow – that’s a big deal.
Here’s the thing: you pay a premium for RTX. They’re significantly more expensive. So, consider your budget and what you’ll primarily use the card for. If you’re a hardcore gamer chasing the absolute best visuals, RTX is the way to go. If you’re on a tighter budget or mostly play older games, GTX is a perfectly viable option. It really depends on your priorities.
- Budget: GTX is budget-friendly, RTX is premium.
- Games: RTX for newer, visually demanding titles, GTX for older games or less demanding settings.
- Other Uses: RTX excels in 3D modeling, video editing, and other creative tasks.
Which is better, an RTX 3070 or an RTX 4060?
Forget the 3070, dude! The RTX 4060 is where it’s at for competitive gaming. Sure, the 3070 had its time, but the 4060’s insane power efficiency is a game-changer. 115W max power draw? That’s insane! Less heat, less noise, and more stable frames in those clutch moments. We’re talking about maintaining peak performance even during intense, long tournament sessions – no more thermal throttling ruining your K/D ratio.
While raw power might be slightly less than the 3070 in some benchmarks, the 4060’s DLSS 3 performance is seriously next level. Frame generation gives you a major boost, especially at higher resolutions. Think smoother gameplay, quicker reaction times—a huge advantage in those nail-biting esports matches. It’s about consistent, smooth performance, not just raw numbers.
The 4060 might not blow the 3070 out of the water in every single scenario, but for the price and the efficiency? It’s a no-brainer for anyone serious about competitive gaming. The extra headroom for overclocking is also pretty sweet.
Which graphics card is better, the 4060 or the 3060?
The RTX 4060 crushes the 3060 in 1080p, boasting a ~19% performance boost. That’s a significant jump for competitive gaming, translating to smoother gameplay and higher frame rates, giving you that crucial edge. Think quicker reactions, less input lag – vital stuff.
The advantage shrinks at higher resolutions. Expect around 13% and 11% gains at 1440p and 4K respectively. While still noticeable, it highlights the 4060’s strength in 1080p, the dominant resolution for many competitive titles. Resource management is key at higher resolutions, and the 4060 is more efficient, giving you more headroom for other demanding processes.
Key takeaway: If you’re primarily focused on 1080p competitive gaming, the 4060 is a clear upgrade. But if you’re aiming for higher resolutions and max settings, the performance difference diminishes, making the price-to-performance ratio more critical.
Now, let’s talk about the 4060 Ti. It’s a beast. We’re talking a massive ~25% performance lead over the base 4060 across all resolutions in our testing. This is a huge leap and affects every aspect of competitive play, giving a significant performance margin.
- Ray Tracing: Both cards offer ray tracing support, but the 4060 and especially the 4060 Ti provide a considerably smoother experience, particularly at 1080p. This advantage can be game-changing in titles where ray tracing impacts visibility.
- DLSS/FSR: Leverage DLSS 3 (4060 Ti) and DLSS 2 (4060) to boost performance further. Mastering these technologies is crucial for maintaining high frame rates while maintaining visual fidelity – a true competitive advantage.
Ultimately, the best choice depends on your budget and target resolution. For competitive 1080p gaming, the 4060 offers a substantial upgrade over the 3060. The 4060 Ti represents a premium option for those seeking the highest possible performance.
Which graphics card is better, the 4060 or the 4060 Ti?
The RTX 4060 Ti absolutely smokes the RTX 4060. We’re not talking a minor upgrade here; we’re looking at a 30-40% performance leap in many benchmarks. This isn’t just marketing hype; it’s a significant difference you’ll feel in-game.
CUDA core count is a major factor. The 4060 Ti boasts a whopping 42% more CUDA cores than its little brother. This translates to significantly more processing power for those demanding textures, ray tracing, and overall graphical fidelity.
Expect smoother frame rates, especially at higher resolutions and with ray tracing enabled. Games that previously struggled on the 4060 might run beautifully on the 4060 Ti. Think crisper details, faster loading times, and a generally more enjoyable gaming experience.
The price difference is justifiable considering the performance boost. While the 4060 Ti commands a higher price tag, the increased performance often justifies the extra cost for serious gamers aiming for a smooth high-refresh-rate experience or maxed-out settings.
Bottom line: If you’re serious about gaming and your budget allows, the RTX 4060 Ti is the clear winner. The performance jump is substantial enough to warrant the increased price point.
What should I know before buying a graphics card?
Yo, wanna grab a new GPU? First, ditch the noob mistakes. Forget marketing hype; focus on raw performance. Figure out what games you’re playing and at what resolution – 1080p, 1440p, or 4K? Then, check benchmarks, not just the manufacturer’s specs. Sites like TechPowerUp and GamersNexus are your bible. They’ll tell you the real-world FPS you’ll get, not some theoretical number.
Next, don’t just look at the core clock – that’s just part of the story. Boost clock is crucial, as is VRAM. More VRAM means higher textures and smoother gameplay, especially at higher resolutions. 12GB is a sweet spot now, but 16GB is future-proofing. Also, check the memory bandwidth – faster memory makes a difference.
AMD vs. Nvidia? It’s a religious war, but both have strengths. Nvidia usually boasts better ray tracing performance, while AMD often offers more bang for your buck. Look at the specific models, not just the brand. A high-end AMD card can smoke a low-end Nvidia one.
Power supply is key. Don’t skimp here. Make sure your PSU has enough wattage and strong enough rails to handle the card’s TDP and your whole system. A failing PSU can fry your rig. Check your motherboard’s PCIe compatibility, too – you don’t want to buy a top-tier card only to discover it’s bottlenecked by an old motherboard.
Cooling is important. A card with a good cooler runs quieter and cooler, meaning better performance and longevity. Consider the size of the card – you don’t want it to block airflow in your case. Finally, read reviews, not just specs. Real-world user experiences are gold.
How do you determine how good a graphics card is?
Forget FPS alone; that’s for casuals. True PvP dominance hinges on consistent frametimes, not just a high average FPS. A smooth, low-latency experience trumps raw FPS any day. Look for consistently high FPS and low frametime variance – tools like RTSS (Rivatuner Statistics Server) are your friend here.
Key metrics beyond FPS:
- Input Lag: Lower is better. This is the delay between your action and its on-screen effect; critical in PvP.
- GPU Utilization: Aim for near 100% during intense fights. Bottlenecks elsewhere (CPU, RAM) will cripple your performance.
- VRAM (Video RAM): Sufficient VRAM prevents stuttering and texture pop-in. Higher resolutions and maxed settings demand more VRAM.
- Cooling Solution: Overheating leads to thermal throttling, killing performance mid-battle. A robust cooling system is crucial for sustained high performance.
Target FPS tiers for competitive play:
- 144Hz+ (minimum): The baseline for serious PvP. Anything less and you’re at a disadvantage.
- 240Hz+: A significant advantage, allowing for quicker reactions and smoother aiming. This requires a high-refresh-rate monitor.
- 360Hz+: Elite-level performance. Only necessary for the most demanding competitive titles and monitors.
Don’t obsess over benchmarks alone. Real-world performance in your specific games, at your chosen settings, is the ultimate measure. Test in actual gameplay scenarios, not just synthetic benchmarks.
Which is better, an RTX 3050 or a GTX 1650?
Look, kid, the RTX 3050 absolutely smokes the GTX 1650. We’re talking a solid 26% performance boost on average, across the board. Every single game I tested showed the 3050 pulling ahead. And that’s without DLSS.
DLSS? That’s Deep Learning Super Sampling – it’s Nvidia’s magic trick that upscales lower-resolution images to higher resolutions, giving you better performance without sacrificing much visual fidelity. With DLSS enabled, the RTX 3050 blows the 1650 out of the water – a whopping 47.83% faster. That’s a massive difference, enough to run most modern games smoothly at higher settings.
Think of it like this: the 1650 is a decent budget card for older games, maybe some esports titles at lower settings. The 3050, though? It’s a proper gaming GPU. You’ll be able to crank up the details, get smoother frame rates, and enjoy a significantly better gaming experience. It’s a worthwhile upgrade if you’re looking to play modern games at acceptable settings. It’s not the most powerful card, but it offers a noticeable leap in performance over that older 1650.
Pro Tip: Always check the specific laptop model specs. A poorly-designed laptop with a 3050 might still underperform a well-optimized laptop with a 1650 due to thermal limitations or other factors. But generally speaking, the 3050 is the clear winner.
Which graphics card can run all games?
Looking for a graphics card that handles everything? Forget “everything,” that’s marketing fluff. Let’s be real. There’s always a game pushing the limits. But if you want the absolute top tier, capable of maxing out settings at 4K and beyond for years to come, here’s the short list, ranked roughly by raw power (performance fluctuates based on specific game engines and optimization):
NVIDIA GeForce RTX 4090: The king. Pure, unadulterated power. Expect buttery smooth frame rates even in the most demanding titles. But it’s a power hog and expensive. Overkill for 1080p gaming, but worth it for 4K and beyond, especially if you’re into ray tracing.
NVIDIA GeForce RTX 4080: A strong contender, offering most of the 4090’s power at a more reasonable price. A fantastic choice for high-refresh-rate 1440p and 4K gaming.
AMD Radeon RX 7900 XTX: A worthy competitor to the 4080, often trading blows in performance depending on the game. It excels in raw rasterization power but can fall slightly behind in ray tracing. Excellent value for money in its price bracket.
The Rest (Professional Cards): The AMD Radeon Pro W7900, NVIDIA Quadro RTX 6000 Ada generation, NVIDIA Quadro RTX A6000, NVIDIA Quadro GV100, and AMD Instinct MI100 are professional-grade cards built for workstation tasks like CAD rendering and video editing. While they pack incredible power, they are overpriced for gaming and often lack gaming-optimized drivers. They may work for gaming, but you’re paying a premium for features you don’t need.
Important Note: Even the best GPU is only one piece of the puzzle. A powerful CPU, ample RAM, and a fast NVMe SSD are essential for a smooth gaming experience. Bottlenecks elsewhere in your system can severely limit even the most potent graphics card’s performance.
Which is more powerful, an RTX 4070 or an RTX 4060 Ti?
The RTX 4070 boasts superior raw power, delivering significantly higher frame rates and better overall performance in demanding games. However, this performance advantage comes at a cost. It carries a higher price tag, demanding a more substantial investment upfront. Furthermore, it’s more demanding on your CPU; bottlenecking can easily occur if your processor isn’t up to snuff. A less powerful CPU paired with an RTX 4070 might not see the full potential of the card, highlighting the importance of system balance.
The RTX 4060 Ti offers a more budget-friendly alternative. While its gaming performance lags behind the 4070, it’s still a capable card for 1080p and even 1440p gaming, especially at lower settings. The key difference lies in longevity. The 4070, with its more substantial processing power, offers a longer lifespan before becoming obsolete due to future game demands. The 4060 Ti, while currently sufficient for many, will likely reach the limits of its capabilities sooner, requiring an upgrade before the 4070.
Consider your budget and existing system components. If you prioritize maximum performance and have a high-end CPU, the RTX 4070 is the clear winner. If you’re on a tighter budget or have a mid-range CPU, the RTX 4060 Ti provides a more sensible balance between price and performance, though at the cost of future-proofing. Remember to check benchmarks and reviews specific to your target games and resolution to make an informed decision.
Is the RTX 4060 Ti better than the 3060 Ti?
The RTX 4060 Ti and RTX 3060 Ti are both capable cards, but the “better” choice depends heavily on your priorities and budget. While the 4060 Ti boasts architectural improvements, the comparison isn’t straightforward.
Key Differences and Trade-offs:
- Architecture: The 4060 Ti utilizes the newer Ada Lovelace architecture (AD106) offering improved efficiency and features like DLSS 3. The 3060 Ti uses the Ampere architecture (GA104).
- Memory Bus: A critical difference is the memory bus width. The 4060 Ti has a 128-bit bus, while the 3060 Ti features a 256-bit bus. This significantly impacts memory bandwidth, potentially affecting performance in high-resolution gaming or memory-intensive tasks.
- Raw Power vs. Efficiency: The 4060 Ti’s smaller die size and improved architecture contribute to better power efficiency. However, the 3060 Ti’s wider memory bus can sometimes overcome the raw performance difference in specific scenarios.
- Pricing and Value: Consider the price-to-performance ratio. While the 4060 Ti offers generational improvements, it might not always offer a proportionally larger performance jump to justify the potential price difference compared to a potentially discounted 3060 Ti.
Performance Considerations:
- Game Resolution and Settings: At 1080p, the performance difference might be minimal, with the 3060 Ti potentially holding its own in certain titles due to its wider memory bus. At 1440p and higher, the 4060 Ti generally pulls ahead, thanks to the architectural advantages.
- Ray Tracing and DLSS: The 4060 Ti benefits significantly from ray tracing performance enhancements in Ada Lovelace and DLSS 3 frame generation, which the 3060 Ti lacks. This is a major advantage for those prioritizing visually enhanced gaming experiences.
- Specific Game Benchmarks: Always consult independent benchmarks for specific games you plan to play. Performance can vary widely depending on the title and its optimization.
In short: The RTX 4060 Ti generally offers better performance per watt and superior features like DLSS 3, but the RTX 3060 Ti’s wider memory bus can sometimes mitigate the performance gap, especially at lower resolutions. A thorough evaluation of your needs, budget, and target resolution is essential before making a decision.
What’s the most important aspect of a graphics card?
While video memory (VRAM) is a readily understandable spec for consumers, it’s far from the sole determinant of a GPU’s performance. The notion that “more VRAM = better” is a vast oversimplification.
Consider these factors before prioritizing VRAM:
- GPU Architecture and Clock Speed: The underlying architecture and clock speed significantly impact raw processing power. A more efficient architecture with higher clock speeds can often outperform a card with more VRAM but a less capable core.
- Bus Interface (Memory Bandwidth): The speed at which data travels between the VRAM and the GPU is crucial. A wider bus interface leads to higher bandwidth, potentially negating the advantage of larger VRAM capacity in some scenarios.
- Game Resolution and Settings: High resolutions (4K and above) and maxed-out graphical settings demand significantly more VRAM. At lower resolutions and settings, the benefits of increased VRAM may be minimal.
- Texture Resolution and Detail Levels: The resolution of textures and the level of detail in a game heavily influence VRAM usage. High-resolution textures can quickly fill up even large VRAM pools.
Here’s a practical example: A game might run smoothly at 1080p with 6GB of VRAM on a high-performance GPU, but stuttering might occur at 4K with 8GB on a lesser GPU due to bottlenecks in the core processing power or memory bandwidth.
In summary: VRAM is essential, but it’s just one piece of a complex puzzle. A balanced approach considering all key aspects – GPU architecture, clock speeds, bus interface, and game settings – is necessary for optimal gaming performance.
What games can an RTX 3050 run?
Alright folks, so I’ve put the RTX 3050 through its paces with ten popular titles, and here’s the lowdown. Keep in mind these are 1080p results, and your mileage may vary based on your CPU and settings. Generally, you can expect decent performance at medium to high settings.
Counter-Strike: Global Offensive absolutely flies at 351fps. This card will max out CS:GO easily, leaving you with plenty of headroom for recording and streaming. No issues here at all.
Dota 2 clocked in at a solid 204fps. Again, very playable and smooth. You can definitely crank the settings up without too much impact.
Lost Ark hit 189fps – perfectly smooth for this action RPG. A little tweaking might be needed depending on the area, but overall, a good experience.
PUBG gave us 87fps. Now, this is where we start to see some limitations. You’ll likely need to drop some settings to high or even medium for consistent performance, especially in busy areas.
Apex Legends sits at 101fps. Similar to PUBG, expect some settings adjustments for a consistently smooth gameplay experience. This is generally playable, but don’t expect maxed-out settings.
Monster Hunter Rise delivered 109fps – a surprisingly decent result for this demanding game. However, you’ll still want to experiment with graphics settings for optimal performance.
Team Fortress 2 was a beast at 507fps. This older game is practically effortless for the 3050. Maximum settings are absolutely achievable. It’s a great example of how the 3050 handles less demanding titles.
GTA 5 came in at 109fps. This is a pretty demanding title, so it’s good, but not great. You’ll probably need to make compromises on the settings to keep that frame rate consistently above 60.
Key Takeaways:
- The RTX 3050 excels in esports titles and older games.
- More demanding modern titles will require some settings adjustments to maintain optimal frame rates.
- 1080p is the sweet spot for this card; aiming for higher resolutions will significantly impact performance.
Remember to monitor your temperatures and utilize any available V-Sync options to further optimize your experience.
What is the best and most affordable graphics card?
The “best” budget GPU is subjective, depending on your needs and resolution. However, these consistently rank highly in the budget-friendly segment:
- Palit Dual RTX 3060 12Gb: A solid performer for 1080p and even 1440p gaming at medium to high settings. Ampere architecture offers good ray tracing capabilities for its price point. Keep an eye out for used models for even better value, but verify the warranty.
- MSI GeForce RTX 4060 Ventus 2X Black OC: Newer architecture (Ada Lovelace) boasts improved efficiency compared to the 3060. Expect good 1080p performance, and potentially decent 1440p at lower settings. DLSS 3 frame generation can significantly boost frame rates.
- ASUS Dual GeForce RTX 4060 Ti 16GB Advanced Edition: A step up from the 4060, offering more VRAM which is crucial for higher resolutions and future-proofing. Expect solid 1440p performance and even some 4K gaming at lower settings.
- ASRock Arc A770 Challenger 16GB OC: Intel’s foray into the discrete GPU market. Offers competitive performance at 1440p, and the large VRAM buffer is a significant advantage. Driver maturity is still a consideration, though it’s improved significantly.
- ASUS Radeon RX 6400 Phoenix: A purely budget option, best suited for 1080p gaming at lower settings. Don’t expect miracles, but it’s a viable option for casual gamers on a strict budget.
- Sapphire Pulse Radeon RX 6600: A decent upgrade over the RX 6400, offering better performance at 1080p and some 1440p capabilities. RDNA 2 architecture is mature and well-supported.
- Gigabyte Radeon RX 7600 GAMING OC: The latest RDNA 3 card on this list, boasting excellent performance per watt. Expect solid 1080p and respectable 1440p gaming. A strong contender if you value efficiency.
- Sapphire Pulse RX 7600: Another RDNA 3 option, often priced competitively with the Gigabyte variant. Choose based on aesthetics and cooling solutions preference.
Important Considerations: Before purchasing, research benchmark tests for your specific games to get a clearer picture of performance. Also factor in power consumption, cooling solutions (especially for overclocking), and warranty length.
Which is better, a GTX 1050 Ti or a GTX 1650?
The GTX 1650 utterly demolishes the GTX 1050 Ti. It’s not even a contest. The Turing architecture in the 1650 is a generational leap – think of it like upgrading from bronze armor to plate. That translates to significantly higher core clocks and, critically, GDDR6 memory. This isn’t just a minor bump; GDDR6 boasts dramatically increased bandwidth, enabling smoother frame rates and better texture detail. You’re looking at a performance increase of around 30-40% in most games, enough to comfortably handle modern titles at 1080p with acceptable settings, something the 1050 Ti could only dream of.
Forget ray tracing; neither card handles it well, but the 1650’s raw rasterization power leaves the 1050 Ti in the dust. Think of it this way: the 1050 Ti is like a rusty dagger, good for poking around, while the 1650 is a finely honed blade, capable of inflicting serious damage. The price difference rarely justifies sticking with the older card. If you’re building a budget system, the 1650 represents superior value and future-proofing, allowing for longer gameplay lifespan before an upgrade becomes absolutely necessary. In short, the 1650 wins hands down – it’s the clear victor in this battle.
What video card characteristics are important for gaming?
Choosing the right graphics card for gaming can feel overwhelming, but understanding key specs simplifies the process. Here’s a breakdown:
GPU Clock Speed (Frequency): This determines how fast the GPU processes data. Higher clock speeds generally translate to higher frame rates, resulting in smoother gameplay. Think of it like the processor speed of your graphics card. A higher clock speed allows for more calculations per second, crucial for high-resolution gaming and demanding titles.
VRAM (Video Memory): This is the graphics card’s RAM. More VRAM allows for higher resolutions, more detailed textures, and the ability to run games with higher settings. Insufficient VRAM leads to stuttering or reduced graphical fidelity. Consider the VRAM requirements of the games you intend to play; modern AAA titles often demand at least 6GB, with 8GB or more becoming increasingly common. 12GB or more is ideal for future-proofing and high-resolution gaming.
Memory Bus Width: This refers to the bandwidth of the data pathway between the GPU and VRAM. A wider bus width allows for faster data transfer, improving overall performance. It works in tandem with VRAM; a large amount of VRAM is less effective without a sufficiently wide bus to access it quickly.
Supported Technologies: Advanced features significantly impact visual fidelity and performance. Key examples include:
Ray Tracing (NVIDIA): Simulates realistic light and shadow interactions, creating stunning visuals but demanding significant GPU power. Look for cards with dedicated ray tracing cores for optimal performance.
FidelityFX Super Resolution (AMD): Upscales lower-resolution images to higher resolutions with minimal performance impact, improving frame rates without sacrificing visual quality too much.
Understanding these features is vital. Ray tracing significantly increases visual realism but comes at the cost of performance. FSR (and its NVIDIA equivalent, DLSS) helps offset this performance hit. Consider your budget and desired visual fidelity when weighing these technologies.
Which is more powerful, a 4060 or a 4070?
Alright guys, so the RTX 4070 versus the 4060… huge difference, even bigger than you might think. We’re talking a serious performance gap here. It’s not just a little bit faster; we’re talking a noticeable jump in frame rates, especially at higher resolutions and with more demanding games.
The 4070’s got significantly more VRAM. We’re talking a substantial increase, which translates directly into smoother gameplay, especially in games that are texture-heavy or require a large amount of data to be processed. Think Cyberpunk 2077, Red Dead Redemption 2 – games where you really start to feel the difference. Running out of VRAM means stuttering, texture pop-in, and just generally a worse experience. The 4070’s larger memory buffer makes that a far less likely issue.
The wider memory bus on the 4070 also plays a critical role. It’s like a wider highway for data – meaning faster access speeds. More data can flow to the GPU more quickly, which results in improved performance across the board. It’s one of those seemingly small specs that makes a massive difference in real-world performance.
In short, if you’re serious about gaming, especially at higher resolutions like 1440p and 4K, the RTX 4070 is the clear winner. The performance increase justifies the price difference. The 4060 is perfectly fine for 1080p, but the 4070 is future-proof in a way the 4060 simply isn’t.
