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The Nvidia RTX 5090: A Deep Dive Into What We Know So Far

The Nvidia RTX 5090: A Deep Dive Into What We Know So Far

As the buzz around Nvidia’s next-gen RTX 5090 continues to grow, enthusiasts and professionals alike are eager to know more about this flagship GPU, its performance, and its release. In this comprehensive article, we will address several key questions related to the RTX 5090, diving into its expected release date, potential pricing, power consumption, bottleneck concerns, and more. Each section provides detailed analysis and insight based on the latest rumors, leaks, and historical patterns from Nvidia’s product launches.


When Will the RTX 5090 Be Released?

Nvidia’s typical release cycle for new GPUs falls within an 18 to 24-month timeframe, which means that the RTX 5090 will likely debut between late 2024 and early 2025. This timeline is consistent with the release of the RTX 4090 in October 2022, and industry insiders speculate that Nvidia will reveal the RTX 5090 during major events such as CES 2025, which takes place in January​(TechRadar)​(TechRadar).

 Another factor contributing to this release schedule is Nvidia’s interest in ensuring they maintain dominance in the GPU market. The company will be looking to stay ahead of AMD, which is expected to launch its RDNA 4 architecture around the same time. Moreover, Nvidia has not yet officially confirmed when its Blackwell architecture—the foundation of the RTX 5090—will be unveiled. However, if Nvidia follows its previous strategy, we can expect the high-end cards like the RTX 5090 to arrive after mid-range options like the RTX 5080, which may launch a few months earlier​(Battlerigs).

By positioning the release during the holiday shopping season or CES 2025, Nvidia will maximize market impact, especially considering the excitement surrounding next-gen GPUs and the growing demand for 4K and 8K gaming performance.

 


How Much Will the RTX 5090 Cost?

The pricing of the Nvidia RTX 5090 is a hot topic, especially considering the rapid rise in costs for high-end GPUs in recent years. The RTX 4090 debuted with an MSRP of $1,599, making it one of the most expensive consumer GPUs on the market at the time. Given the expected performance leap with the RTX 5090, analysts and tech insiders predict that the RTX 5090 could be priced between $2,000 and $2,500(TechRadar)​(Battlerigs).

 This price range might seem steep, but it aligns with the cutting-edge technology that the RTX 5090 is expected to offer, including GDDR7 memory, a 512-bit memory bus, and PCIe 5.0 support. Additionally, advancements in AI-powered gaming and ray tracing capabilities will push the boundaries of what is possible in both gaming and professional environments​(OC3D)​(gamesradar).

Nvidia’s pricing strategy will also depend on external factors such as competition from AMD and the overall market demand for high-end GPUs. If AMD’s RDNA 4 cards offer comparable performance at a lower price, Nvidia may have to adjust its pricing to remain competitive. However, given Nvidia's current market leadership in the high-end GPU segment, they have the flexibility to set premium prices for the RTX 5090.


Will the RTX 5090 Be Bigger Than the RTX 4090?

Size is a significant consideration for consumers when upgrading GPUs, especially with the RTX 4090 being one of the largest graphics cards ever released. With its triple-slot design and massive cooling system, the 4090 set new standards in terms of both physical size and thermal management. Many wonder if the RTX 5090 will follow the same trend of increased size.

Interestingly, while the RTX 5090 is expected to offer a major performance boost, some rumors suggest it could be slimmer than the 4090. This is due to advancements in TSMC’s 3nm process node, which allows for smaller transistors and more efficient cooling designs​(Vast AI)​(TechRadar)(Tom'sHardware). By shrinking the die size, Nvidia could potentially reduce the physical footprint of the RTX 5090 while still delivering higher performance.

That being said, the power and heat management requirements for a card of this caliber are significant, which means that Nvidia is likely to continue using large heatsinks and multiple fans for cooling. The 5090 is expected to feature triple-fan cooling systems, similar to its predecessor, but with RGB lighting and advanced cooling mechanisms that might be more efficient​(Vast AI).

Ultimately, while the RTX 5090 may not be physically larger than the 4090, it will still demand ample space within a high-end PC case and require excellent airflow for optimal performance.


Will the RTX 5090 Have DisplayPort 2.1?

The inclusion of DisplayPort 2.1 is one of the more exciting features expected in the RTX 5090. The current RTX 40-series GPUs, including the 4090, lack DisplayPort 2.1, which has been a point of criticism, especially given that AMD’s Radeon RX 7000 series already supports this standard​(Tom's Hardware).

 DisplayPort 2.1 offers significantly higher bandwidth, allowing for higher resolutions and refresh rates. For example, DisplayPort 2.1 can support 4K at 240Hz and 8K at 85Hz without the need for compression, making it ideal for gaming and professional tasks such as video editing, 3D rendering, and virtual reality​(PCGamesN)​(Tom's Hardware)

The move to DisplayPort 2.1 ensures that the RTX 5090 will be future-proof for the next generation of 8K displays and high-refresh-rate 4K monitors, allowing gamers and professionals to fully utilize the capabilities of their high-end setups.


Will the RTX 5090 Support NVLink?

NVLink, Nvidia’s high-bandwidth multi-GPU technology, has been phased out in recent years for consumer-grade GPUs. Starting with the RTX 40-series, Nvidia has shifted away from supporting NVLink in favor of focusing on single-GPU performance. This trend is expected to continue with the RTX 5090​(TechRadar)​(Tom's Hardware)

While NVLink is still present in Nvidia’s professional-grade GPUs, such as the A-series designed for data centers and AI workloads, it is unlikely to make a return in consumer cards like the RTX 5090. For most users, the shift away from multi-GPU configurations is not a significant drawback, as modern GPUs like the 4090 and 5090 are more than powerful enough to handle the latest games and professional tasks on their own.


How Much Power Will the RTX 5090 Consume?

Power consumption is another critical factor for anyone considering upgrading to the RTX 5090. Based on current rumors, the RTX 5090 is expected to draw between 450W and 600W, placing it among the most power-hungry consumer GPUs ever produced​(TechRadar)​(OC3D)

The RTX 4090 already requires around 450W, and the 5090’s anticipated performance improvements suggest that power consumption could increase even further. To handle this power draw, users will need a high-quality 1000W or greater power supply, depending on the rest of the system’s components​(TechRadar)​(Tom's Hardware)

Efficient cooling will be essential to managing the heat generated by the RTX 5090, especially during extended gaming sessions or intense workloads. Nvidia is expected to continue using the 16-pin 12VHPWR connector, ensuring that the card can draw sufficient power without compromising performance​(TechRadar). 


How Much VRAM Will the RTX 5090 Have?

Rumors indicate that the RTX 5090 will feature between 24GB and 32GB of GDDR7 VRAM, a significant upgrade over the 24GB of GDDR6X found in the RTX 4090​(TechRadar)​(gamesradar).

The use of GDDR7 memory will dramatically increase memory bandwidth, allowing for faster data processing and smoother performance in demanding applications.

 For gamers, 24GB of VRAM is more than enough to handle 4K and 8K gaming, but the extra VRAM could be beneficial for professionals working with 3D models, AI, or video editing, where large datasets and complex scenes are common. The combination of high memory capacity and the advanced Blackwell architecture will ensure that the RTX 5090 is well-suited for a wide range of applications, from gaming to AI research.


Will the AMD Ryzen 7800X3D Bottleneck the RTX 5090?

The AMD Ryzen 7 7800X3D is a highly capable gaming processor, optimized for gaming performance with its 3D V-Cache technology that enhances frame rates and smooths out gaming experiences. However, when paired with a GPU as powerful as the Nvidia RTX 5090, bottlenecking could occur in certain scenarios, particularly at lower resolutions like 1080p or 1440p.

Bottlenecking at Lower Resolutions (1080p or 1440p)

At lower resolutions, games tend to be CPU-bound, meaning that the processor plays a larger role in determining frame rates. The Ryzen 7800X3D, despite its impressive capabilities, may struggle to keep up with the extreme performance of the RTX 5090, particularly in scenarios where games rely heavily on single-threaded performance or where the CPU is responsible for handling tasks outside of pure GPU rendering, such as AI routines, physics calculations, or game logic(Tom's Hardware)​(Battlerigs). 

In 1080p or 1440p gaming, where the GPU is not fully taxed, the CPU often becomes the limiting factor, leading to a potential bottleneck. This doesn’t mean the 7800X3D isn’t a powerful processor—it’s one of the best for gaming—but the sheer power of the RTX 5090 may not be fully utilized, especially in CPU-bound titles or demanding open-world games that rely heavily on processor power.

Higher Resolutions (4K and 8K)

At higher resolutions like 4K or 8K, the situation changes dramatically. Here, the GPU does most of the heavy lifting, and the system becomes GPU-bound rather than CPU-bound. In these scenarios, the bottleneck caused by the Ryzen 7800X3D is much less likely to occur because the graphics card is handling the vast majority of the processing required to render high-resolution textures and deliver smooth frame rates. The RTX 5090 would be able to flex its full power, and the CPU would play a lesser role​(Tom's Hardware)​(Battlerigs). 

Professional Applications

In professional applications that rely heavily on both CPU and GPU performance, such as 3D rendering, AI-based tasks, video editing, or simulation modeling, the Ryzen 7 7800X3D might not be the best match for the RTX 5090. These tasks tend to require more multi-core processing power, which could lead to a bottleneck when using the 7800X3D. For such applications, a higher-end CPU with more cores and threads, like the Ryzen 9 7950X3D or Intel Core i9 processors, might be a better fit to complement the RTX 5090’s extreme performance​(Tom's Hardware). 


How Much Power Will the RTX 5090 Consume?

Power consumption is a critical factor to consider when upgrading to a GPU as powerful as the RTX 5090. Based on current speculation, the RTX 5090 is expected to draw between 450W and 600W, depending on the specific design and cooling solutions used by Nvidia. This places the RTX 5090 among the most power-hungry consumer GPUs ever released​(OC3D)​(Tom's Hardware). 

The RTX 4090 already draws approximately 450W, and the RTX 5090 is expected to require even more power due to its increased performance, GDDR7 memory, and PCIe 5.0 support​(TechRadar)​(gamesradar). To accommodate this, users will need a high-quality 1000W or higher power supply, depending on the other components in their system. Nvidia will likely continue using the 16-pin 12VHPWR connector, as it was introduced with the RTX 40-series​(OC3D)(Battlerigs). 

Managing the heat generated by such high power consumption will be a key challenge, and it’s expected that the RTX 5090 will have improved cooling solutions, including triple-fan designs and enhanced thermal dissipation technologies.


How Much VRAM Will the RTX 5090 Have?

The Nvidia RTX 5090 is rumored to feature between 24GB and 32GB of GDDR7 VRAM, a significant increase over the 24GB of GDDR6X used in the RTX 4090​(TechRadar)​(Tom's Hardware). This upgrade will allow for faster memory bandwidth, which is crucial for handling 4K and 8K gaming as well as professional tasks like AI training, 3D modeling, and high-resolution video rendering.

For gamers, 24GB of VRAM is more than enough to handle even the most demanding titles at ultra settings and 8K resolutions. However, professionals working with large datasets or complex 3D scenes may benefit from the 32GB configuration, which would enable smoother performance in tasks that require heavy memory usage. The additional VRAM capacity would also help future-proof the RTX 5090 for more advanced applications​(gamesradar)​(Tom's Hardware).

 

Conclusion

In summary, the AMD Ryzen 7 7800X3D is an excellent CPU for gaming but may experience bottlenecking when paired with the Nvidia RTX 5090, particularly at lower resolutions like 1080p or 1440p. At higher resolutions such as 4K or 8K, the bottleneck is less likely as the GPU handles the bulk of the workload. For professional applications, users may want to consider higher-end CPUs like the Ryzen 9 or Intel Core i9 to fully complement the RTX 5090.

Additionally, the RTX 5090 is expected to consume 450W to 600W, requiring a robust power supply, and will likely feature 24GB to 32GB of GDDR7 VRAM, making it a powerhouse for both gaming and professional workloads. Its expected release in late 2024 or early 2025 positions it as one of the most anticipated GPUs, capable of handling the most demanding tasks and gaming experiences.

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