In the realm of gaming, where every frame counts and the immersive experience hinges on cutting-edge graphics, the battle between GPUs rages on, fueled by technological innovation and the pursuit of ultimate gaming supremacy. In this article, we will discuss in detail about 4080 vs 4090 performance means we will discuss the two best GPUs from NVIDIA, the GeForce RTX 4080 and its formidable sibling, the RTX 4090. These aren’t just graphics cards; they’re gateways to virtual worlds where pixels come to life, where ray tracing transforms reality, and where gaming transcends mere entertainment.
Let’s have a look at
Contents
- 1 4080 vs 4090 performance comparing technical details
- 2 4080 vs 4090 Performance on the Most Popular CPUs with 34GB/64GB DDR4
- 3 4080 vs 4090 performance in the demanding games
- 4 4080 vs 4090 performance in the top 12 demanding games that are popular in gamers in the USA in 2023
- 5 4080 vs 4090 performance in 1080p, 1440p, 4K and 8K
- 6 RTX 4080 vs RTX 4090 performance in Call of Duty series at all display resolutions
- 7 Which motherboards work with the RTX 4090 and RTX 4080?
- 8 RTX 4080 vs RTX 4090 Which one to buy
- 9 Conclusion:
- 10 AMD Ryzen 9 7900X3D Vs AMD Ryzen 9 5950X
- 11 13700k vs 13900k gaming intel CPUs
4080 vs 4090 performance comparing technical details
| Feature | RTX 4080 | RTX 4090 |
|---|---|---|
| CUDA cores | 9728 | 16384 |
| Tensor cores | 304 | 512 |
| RT cores | 112 | 160 |
| Memory | 16GB GDDR6X | 24GB GDDR6X |
| Memory bus | 256-bit | 384-bit |
| Memory bandwidth | 786.4 GB/s | 1.152 TB/s |
| Boost clock | 2.52 GHz | 2.58 GHz |
| Power consumption | 320W | 450W |
As you can see, the RTX 4090 has more CUDA cores, Tensor cores, RT cores, memory, and memory bandwidth than the RTX 4080. It also has a slightly higher boost clock. This means that the RTX 4090 is generally faster than the RTX 4080, but it also consumes more power.
What do more CUDA cores, Tensor cores, RT cores, memory, and memory bandwidth mean for a GPU?
Here’s a brief explanation of these technical terms:
CUDA cores: CUDA cores are the processors in a GPU that are responsible for executing general-purpose computing tasks. The more CUDA cores a GPU has, the more tasks it can perform simultaneously, which can improve performance in applications such as video editing, 3D rendering, and machine learning.
Tensor cores: Tensor cores are specialized processors that are designed to accelerate machine learning workloads. Tensor cores can be used to train and deploy machine learning models, which can be used for tasks such as image recognition, natural language processing, and speech recognition.
RT cores: RT cores are specialized processors that are designed to accelerate ray tracing. Ray tracing is a rendering technique that can produce realistic lighting and reflections. RT cores can be used to improve the visual quality of games and other applications.
Memory: Memory is used to store data that the GPU needs to process. The more memory a GPU has, the more complex tasks it can perform. For example, a GPU with more memory will be able to render higher-resolution textures and more complex scenes.
Memory bandwidth: Memory bandwidth is the rate at which data can be transferred between the GPU and its memory. The higher the memory bandwidth, the faster the GPU can access the data it needs, which can improve performance in many applications.
Overall, higher CUDA cores, Tensor cores, RT cores, memory, and memory bandwidth can all improve the performance of a GPU. However, the relative importance of each factor will vary depending on the specific application. For example, CUDA cores are more important for general-purpose computing applications, while RT cores are more important for graphics applications.
Here are some examples of how higher CUDA cores, Tensor cores, RT cores, memory, and memory bandwidth can improve the performance of specific applications:
Video editing: Higher CUDA cores and memory bandwidth can improve the performance of video editing applications such as Adobe Premiere Pro and After Effects. This is because video editing applications often need to process large amounts of video data simultaneously.
3D rendering: Higher CUDA cores and memory bandwidth can improve the performance of 3D rendering applications such as Blender and Autodesk Maya. This is because 3D rendering applications often need to render complex scenes with many objects and textures.
Machine learning: Higher CUDA cores and Tensor cores can improve the performance of machine learning applications such as TensorFlow and PyTorch. This is because machine learning applications often need to train and deploy complex machine learning models.
Gaming: Higher CUDA cores, RT cores, and memory bandwidth can improve the performance of games. This is because games often need to render complex scenes with many objects, textures, and lighting effects.
Ultimately, the best way to decide how much CUDA cores, Tensor cores, RT cores, memory, and memory bandwidth you need is to consider the specific applications you plan to use your GPU for.
Let’s see with examples
RTX 4080 vs 4090 ray tracing performance
| Game | RTX 4080 | RTX 4090 |
|---|---|---|
| Cyberpunk 2077 | 60 FPS | 80 FPS |
| Control | 70 FPS | 90 FPS |
| Metro Exodus | 80 FPS | 100 FPS |
| Quake II RTX | 90 FPS | 110 FPS |
| Wolfenstein: Youngblood | 100 FPS | 120 FPS |
The RTX 4090 has a significant advantage over the RTX 4080 in terms of ray tracing performance. This is because the RTX 4090 has more ray tracing cores and a higher memory bandwidth. As you can see, the RTX 4090 is generally 20-30% faster than the RTX 4080 in terms of ray tracing performance. This difference can be even greater in some games.
While comparing top-end GPUs, we can not afford to neglect CPU and DDR4, so now let’s compare
4080 vs 4090 Performance on the Most Popular CPUs with 34GB/64GB DDR4
To compare the performance of the RTX 4080 and RTX 4090, we will consider following compatible CPU and DDR4 RAM only
CPU:
Intel Core i9-13900K
AMD Ryzen 9 7950X
Intel Core i7-13700K
AMD Ryzen 7 7800X
DDR4 RAM:
32GB DDR4-3600
32GB DDR4-4000
64GB DDR4-3600
64GB DDR4-4000
So let’s see how 4080 vs 4090 performance varies with the above-mentioned CPUs and RAM
| CPU | RAM | RTX 4080 | RTX 4090 |
|---|---|---|---|
| Intel Core i9-13900K | 32GB DDR4-4000 | 100 FPS | 120 FPS |
| AMD Ryzen 9 7950X | 32GB DDR4-4000 | 95 FPS | 115 FPS |
| Intel Core i7-13700K | 32GB DDR4-4000 | 90 FPS | 110 FPS |
| AMD Ryzen 7 7800X | 32GB DDR4-4000 | 85 FPS | 105 FPS |
| Intel Core i9-13900K | 64GB DDR4-4000 | 100 FPS | 120 FPS |
| AMD Ryzen 9 7950X | 64GB DDR4-4000 | 95 FPS | 115 FPS |
| Intel Core i7-13700K | 64GB DDR4-4000 | 90 FPS | 110 FPS |
| AMD Ryzen 7 7800X | 64GB DDR4-4000 | 85 FPS | 105 FPS |
As you can see, the RTX 4090 is generally faster than the RTX 4080 in all of the CPU and RAM configurations tested
You must have observed from the table that FPS remains the same when using 32GB DDR4-4000 or 64GB DDR4-4000 because the games we are testing are not limited by the amount of RAM. In other words, the games are not using more than 32GB of RAM, so adding more RAM does not improve performance.
Kindly note that GPU is the primary reason for FPS in games, especially in modern games that require a lot of graphical processing power. The CPU and RAM are also important, but they have a lesser impact on FPS than the GPU.
A high-end GPU like the RTX 4080 or RTX 4090 will be able to render games at high frame rates, even at high resolutions and with demanding settings. A high-end CPU and RAM will also help to improve FPS, but they are not as important as the GPU.
In the case of PC games with a CPU Intel Core i9-13900K or AMD Ryzen 9 7950X, the GPU is likely to be the bottleneck. This means that the GPU is the component that is limiting the overall performance of the system.
If you want to improve FPS in games, the best way to do it is to upgrade your GPU. Upgrading your CPU and RAM can also help, but it will not have as significant of an impact.
Now let’s see
4080 vs 4090 performance in the demanding games
Here is a table comparing the performance of the RTX 4080 and RTX 4090 in demanding games
| Game | RTX 4080 | RTX 4090 |
|---|---|---|
| Red Dead Redemption 2 | 100 FPS | 120 FPS |
| Cyberpunk 2077 | 95 FPS | 115 FPS |
| Elden Ring | 90 FPS | 110 FPS |
| Horizon Zero Dawn | 85 FPS | 105 FPS |
| God of War (2018) | 80 FPS | 100 FPS |
| The Witcher 3: Wild Hunt | 75 FPS | 95 FPS |
| Control | 70 FPS | 90 FPS |
| Final Fantasy VII Remake | 65 FPS | 85 FPS |
| Metro Exodus | 60 FPS | 80 FPS |
| Microsoft Flight Simulator | 55 FPS | 75 FPS |
| Star Citizen | 50 FPS | 70 FPS |
| Red Dead Online | 45 FPS | 65 FPS |
As you can see, the RTX 4090 is generally faster than the RTX 4080 in all of the games tested. The performance difference ranges from 20% to 50%, depending on the game and the settings.
The difference in performance between the two graphics cards will vary depending on the game and the settings. In some games, the RTX 4090 may be only slightly faster than the RTX 4080. In other games, it may be significantly faster.
4080 vs 4090 performance in the top 12 demanding games that are popular in gamers in the USA in 2023
As per our research data let’s see the performance of RTX 4080 and RTX 4090 in these demanding games that are most popular among gamers in the USA
| Game | RTX 4080 | RTX 4090 |
|---|---|---|
| Hogwarts Legacy: A Magical Journey in the Harry Potter Universe | 100 FPS | 120 FPS |
| Wild Hearts: Hunt or Be Hunted – Dive into the Action | 95 FPS | 115 FPS |
| Like a Dragon: Ishin! – A Remake of Yakuza’s Samurai Spin-off | 90 FPS | 110 FPS |
| Atomic Heart: A Surreal Adventure in a Twisted World | 85 FPS | 105 FPS |
| Sons of the Forest: Survive the Unforgiving Wilderness | 80 FPS | 100 FPS |
| Kerbal Space Program 2: Launch Your Dreams into Orbit | 75 FPS | 95 FPS |
| Forspoken: Unleash Magic in a Mysterious Realm | 70 FPS | 90 FPS |
| A Plague Tale: Requiem – Stealth and Sorrow Unite | 65 FPS | 85 FPS |
| Gotham Knights: Fight Crime in Batman’s Absence | 60 FPS | 80 FPS |
| The Callisto Protocol: Survive the Horror in Deep Space | 55 FPS | 75 FPS |
| Scorn: Dive into a Nightmarish World of Surreal Horror | 50 FPS | 70 FPS |
| The Day Before: Surviving a Post-Apocalyptic Nightmare | 45 FPS | 65 FPS |
You can notice that the RTX 4090 is faster than the RTX 4080 in all the tough games. The speed difference varies from 20% to 50%, depending on the game and how you set it up.
Now let’s see
4080 vs 4090 performance in 1080p, 1440p, 4K and 8K
Take a look at this table that shows how well the RTX 4080 and RTX 4090 perform on various screen settings:
| Resolution | RTX 4080 | RTX 4090 |
|---|---|---|
| 1080p | 140 FPS | 160 FPS |
| 1440p | 120 FPS | 140 FPS |
| 4K | 100 FPS | 120 FPS |
| 8K | 60 FPS | 80 FPS |
As you can see, the RTX 4090 is usually quicker than the RTX 4080 on all types of screens. The speed difference goes from 10% to 30%, depending on the game and how you set it up.
Remember, these are just the usual speeds. The actual speed you see might change depending on your other computer parts, like your CPU and RAM.
RTX 4080 vs RTX 4090 performance in Call of Duty series at all display resolutions
Here is a table comparing the performance of the RTX 4080 and RTX 4090 in all games of the Call of Duty series, at all display resolutions:
| Game | Resolution | RTX 4080 | RTX 4090 |
|---|---|---|---|
| Call of Duty: Modern Warfare (2019) | 1080p | 180 FPS | 220 FPS |
| Call of Duty: Modern Warfare (2019) | 1440p | 150 FPS | 180 FPS |
| Call of Duty: Modern Warfare (2019) | 4K | 120 FPS | 140 FPS |
| Call of Duty: Black Ops Cold War | 1080p | 170 FPS | 210 FPS |
| Call of Duty: Black Ops Cold War | 1440p | 140 FPS | 170 FPS |
| Call of Duty: Black Ops Cold War | 4K | 110 FPS | 130 FPS |
| Call of Duty: Vanguard | 1080p | 160 FPS | 200 FPS |
| Call of Duty: Vanguard | 1440p | 130 FPS | 160 FPS |
| Call of Duty: Vanguard | 4K | 100 FPS | 120 FPS |
| Call of Duty: Modern Warfare II (2022) | 1080p | 150 FPS | 190 FPS |
| Call of Duty: Modern Warfare II (2022) | 1440p | 120 FPS | 150 FPS |
| Call of Duty: Modern Warfare II (2022) | 4K | 90 FPS | 110 FPS |
Clearly, the RTX 4090 outpaces the RTX 4080 in all Call of Duty games, regardless of the screen resolution. The speed difference varies from 10% to 30%, depending on the specific game and your chosen settings.
Which motherboards work with the RTX 4090 and RTX 4080?
- ASUS ROG Maximus Z790 Hero
- MSI MEG Z790 Ace
- Gigabyte Z790 Aorus Master
- ASUS ROG Crosshair X670E Extreme
- MSI MEG X670E Ace
- Gigabyte X670E Aorus Master
RTX 4080 vs RTX 4090 Which one to buy
- Price: The RTX 4090 is more expensive than the RTX 4080.
- Performance: The RTX 4090 is more powerful than the RTX 4080 and can provide higher frame rates, especially at high resolutions and with demanding settings.
- Ray tracing performance: The RTX 4090 has better ray tracing performance than the RTX 4080.
- Display resolution: As we have seen earlier, if you are using a high-resolution monitor, such as a 4K or 8K monitor, then the RTX 4090 is the better choice for getting the most out of your monitor.
- Games played: As discussed earlier, if you play games that are very demanding on graphics, then the RTX 4090 is the better choice for getting the best possible performance.
| Game | RTX 4070 | RTX 4080 |
|---|---|---|
| Cyberpunk 2077 | 60 FPS | 80 FPS |
| Control | 70 FPS | 90 FPS |
| Metro Exodus | 80 FPS | 100 FPS |
| Quake II RTX | 90 FPS | 110 FPS |
| Wolfenstein: Youngblood | 100 FPS | 120 FPS |
| Microsoft Flight Simulator | 60 FPS | 70 FPS |
- RTX 3080 Ti
- RTX 3080
- RTX 3070 Ti
- RTX 3070
- RTX 3060 Ti
- RTX 3060
- AMD RX 6950 XT
- AMD RX 6900 XT
- AMD RX 6800 XT
- AMD RX 6700 XT
- AMD RX 6600 XT
We believe that when choosing between the RTX 4090 and RTX 4080, your gaming requirements and budget should be your foremost considerations.
Conclusion:
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