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Rx 6600 rx 6600xt leaked info

Finally, AMD has finally launched its RX 6000 series GPU lineup, which prides itself on some impressive performance benchmarks, and the red team may win the game for the first time in nearly a decade.

Although not everyone believes in AMD’s benchmark tests, it is mainly due to AMD’s custom conditions for testing its GPUs, but it still makes many people wonder: which is better from AMD’s RTX 3070 or RX 6800?

In today’s article, we will take a closer look at these two GPUs to see which one should be used in your next game version. We will compare prices, performance and general specifications to make a more informed decision.

Since there is a lot to experience, don't waste time sneaking into it!

As you can see, there are some considerable differences between the two GPUs. However, comparing them side by side is not as simple as you might think. In most cases, many performance specifications are customized for each GPU (thanks to how each architecture works). So how do we compare? Well, we will see the similarities: memory speed, capacity, bandwidth and bus, as well as other factors such as clock frequency and price. Then we'll explore some of the individual characteristics that can influence your purchase decision.

clock speed (basic / boost)

2110MHz / 2360MHz




HDMI x 1 DP x 2 USB type C x 1

Full coverage Gold-plated plate

On-board heat dissipation treatment

600mm, with EATX Chassis and alternate brackets are compatible with

Very Fast Cards

Very Expensive

Clock Speed

1830MHz Boost clock (OC)



Thermal Design

TORX 3.0 Fan 44 44 44 44 444 444 444 444 444 444 444 444 444 444 444 444 444 444 444 444 444 444 444 444

gaming aesthetics

Rugged materials and construction design

High-end cooling solution


One of the most significant (and most striking) differences that can be found when comparing the RTX 3070 and RX 6800 is the memory. AMD has made great strides in this regard, equipping all of its latest GPUs with 16GB of GDDR6 VRAM, which is twice as much as the Nvidia alternatives. Unlike other GPUs in the ampere range, the 3070 does not have the fastest GDDR6X VRAM you can rely on. The

victory does not stop there. AMD's RX 6800 also provides faster memory speed (16GBps than Nvidia's 14GBps) and a comparable memory bus, making the standard memory bandwidth of RX 6800 almost 15% larger than that of RTX 3070. In other words, thanks to AMD's recently implemented Infinity Cache (128MB), the RX 6800 effectively has almost three times the memory bandwidth. What does all this mean for players who want to buy this card? Well, we should expect significant performance improvements in games and resolutions (such as 4K) that require a lot of memory. The additional VRAM from AMD will also make it easier to modify games at higher resolutions, because more is better. The

clock frequency is another area where we can directly compare the RX 6800 and RTX 3070 GPUs. Once again, the red team seems to be among the best.

AMD once again made a huge leap in this sector: it managed to increase the clock speed to an impressive 2.105MHz in boost mode. This is primarily due to the 56% increase in performance per watt brought by the new claimed RDNA2 architecture. Compared with Nvidia, this is almost a 400MHz jump, and this difference will definitely see performance improvements in games and workflows.

Although comparing the additional technologies of each GPU is not a completely fair test, it is worth exploring because we can still speculate on how each technology might affect the overall user experience.

Since the introduction of Ampere GPU, one of the main features that many people have been discussing is the arrival of DLSS 2.0, which can effectively increase the frame rate of AI-based super-resolution formats. This feature allows the Nvidia GPU to use a trained neural network to increase the resolution in real time. Compared to rendering an unscaled image, this not only improves graphics fidelity, but it also increases the frame rate exponentially. Deep learning supersampling technology can also work seamlessly with real-time ray tracing, eliminating most of the performance loss generally associated with RTX.

Although this is very positive news for Nvidia, there is a major deficiency: compatibility. For DLSS 2.0 to work effectively, Nvidia must train the AI on ultra-high resolution images generated by a specific game engine. Since this is a relatively new technology, few games fully support DLSS 2.0 features; it's obvious to most third-party test testers using Doom for independent reviews. Nvidia's

Ampere GPU is also equipped with the now comprehensive NVENC stream encoder, allowing the RTX 3070 to generate streaming from games in real time with minimal loss of performance. In addition, RTX voice and RTX streaming media also use the AI algorithm in Ampere GPU to achieve higher quality streaming media functions.

On the other side of the theoretical pool, AMD provides new features such as smart memory access, Rage mode, and DX12 ray tracing.

In a possibly smarter way, AMD is focusing on ray tracing through API DXR media, which is a more widely adopted and DX12-compliant protocol. This is something that the RTX core will be able to use in the next few years, which means we will soon see ray tracing become a standard configuration in most modern games. In addition to

, AMD now has two new features unique to AMD GPUs: smart memory access and violent mode. When Dr. Su introduced the new RDNA2 series of GPUs, almost all side-by-side comparisons with Nvidia alternatives were in

, It effectively unlocked the last bit of overclocking headspace found in that particular GPU. This not only improves the overall performance of the game, but also puts it above the competition when comparing clock frequencies.

Now that AMD's RX 6000 series GPUs have been released, we can finally talk about availability and pricing. Regardless of specifications, this may be the biggest factor in most people's purchasing decisions. Annoyingly, every brand seems to have a very good evaluation of their GPU, which makes the choice between RX 6800 and RTX 3070 more difficult.

When looking at the cost of these two GPUs side by side, the RX 6800 stands out. Yes, for the first time in a long time, AMD has not weakened its competitors. They are showing off their advantages and equipped with the latest GPU at a reasonable price: fair competition. The RX 6800 is about $50 more expensive than Nvidia, which is indeed very competitive considering the potential performance gains that can be obtained by selecting the red team from the green team.

Plus, due to the chaotic release of the RTX 30 series, even users who want to buy a 3070 GPU cannot buy it. Since the introduction of the new GPU, we have only seen a limited number available for public use. Most retailers are forced to cut sales to 1 piece per person, so that as many people as possible have physical access to as many pieces as possible.

clock speed (Base / Boost)

2110MHz / 2360MHz




HDMI x 1 DP x 2 USB Type C x 1

clock speed

46MHz VRAM 483 VRAM 46 OC 46MHz Boost 483 VRAM

design heat dissipation

cooling TORX Fan 3.0

Power Input

2 x 8-pin


323mm x 140mm x 56mm

So which one should you choose? Is it AMD RX 6800 or RTX 3070? Well, I think it boils down to a few basic factors.

First, let's start with AMD. If you are a big fan of AMD components and plan to buy one of the latest 5000 series CPUs, then 6000 series GPUs seem to be the most obvious choice. Not only do you get great value for money, but you can also improve performance thanks to new features such as smart access to memory and anger mode.

However, if you are still using Intel chips, the performance increase may not be as impressive as AMD claims. Users using Intel CPUs will not be able to use smart memory access, which means that their performance will naturally be reduced by about 510%. In addition, with features such as DLSS 2.0 and RTX streaming, Nvidia RTX 3070 may be more suitable for other users than AMD’s alternative products.

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