Discover the differences between Nvidia Geforce RTX and GTX graphics cards, including their unique features and capabilities for different workloads. Explore how each card functions and which is best suited for your needs.
If you’re looking to build a gaming PC, you’ve heard of two of the most popular graphics card series on the market – the NVIDIA RTX and GTX.
But with so many options available, deciding which is right for you can be challenging.
This article will explore the differences between RTX and GTX graphics cards, their unique features and specifications, and which are better suited for various workloads and functionality.
Graphics cards are a critical component of any gaming PC, responsible for rendering the images and videos you see on your screen.
NVIDIA, one of the leading graphics card manufacturers, has released two popular series of graphics cards – the RTX and GTX.
These series are designed for different purposes and offer unique features that cater to different workloads and functionality.
Related Read
- Nvidia NVLink vs. SLI Multiple GPUs – Which One is Worth It?
- Nvidia Graphics Card Rankings and Performance Comparison 2023
- How to Enable RTX (Ray Tracing & Voice) On Your Nvidia GPU?
RTX vs GTX – Which One is Better?
When comparing the RTX and GTX graphics cards, the answer is more complex than one is better. These series have their strengths and weaknesses, making them better suited for different use cases.
RTX Graphics Cards – Features and Specifications
The RTX series was launched in 2018 and is known for its advanced features and superior performance. The most notable feature of RTX graphics cards is their ability to support ray tracing technology.
Ray tracing is a rendering technique that produces realistic lighting and shadow effects, making games look more lifelike than ever before. In addition to ray tracing, RTX graphics cards come equipped with Tensor Cores, designed to support deep learning algorithms and enable artificial intelligence (AI) applications.
RTX graphics cards are also known for their impressive memory bandwidth, allowing faster data transfer and smoother performance.
The latest RTX 30-series graphics cards also feature NVIDIA’s new Ampere architecture, which offers significant performance improvements over previous generations.
GTX Graphics Cards – Features and Specifications
The GTX series, on the other hand, has been around since 2008 and is known for its reliability and affordability. While GTX graphics cards don’t support ray tracing or Tensor Cores, they still offer excellent performance for gaming and other workloads.
GTX graphics cards are available at various prices, making them accessible to many users. They also offer excellent value for money, with many models balancing price and performance.
Also, Read
- Are Founders Edition GPUs Any Good?
- 9 Best Mid-Range Graphics Cards (GPUs) In 2023 – Unleash the Power of Your Gaming PC!
- How Long Do GPUs (Graphic Cards) Last?
Which One is Better Suited for Gaming?
When it comes to gaming, the answer to this question depends on what you’re looking for. If you’re a hardcore gamer who wants the best performance and visuals, an RTX graphics card is the way to go.
The advanced ray tracing technology and Tensor Cores make RTX graphics cards ideal for playing the latest games at high resolutions and frame rates.
However, if you’re on a budget or don’t need the advanced features of an RTX card, a GTX graphics card will provide excellent gaming performance at a lower price point.
Which One is Better Suited for Video Editing and 3D Modeling?
For video editing and 3D modeling, an RTX graphics card is the better choice. The ray tracing technology and Tensor Cores make it possible to render high-quality images and videos faster and more efficiently than with a GTX graphics card.
In addition, the superior memory bandwidth of RTX cards allows for faster data transfer, resulting in quicker rendering times.
Also, Read
- Best Workstation Computer for 3D Modeling and Rendering 2023
- How To Choose A Graphics Card (GPU) for Video Editing?
- How to Increase Dedicated Video Ram (VRAM) of Your Graphics Card’s
Which One is Better Suited for Machine Learning and AI Applications?
An RTX graphics card is the clear winner for machine learning and AI applications. The Tensor Cores in RTX cards provide significant performance improvements over traditional GPU computing, making them ideal for running complex deep learning algorithms.
The ray tracing technology in RTX cards can also be used in some AI applications, such as image recognition and natural language processing.
Difference between GTX and RTX
GTX and RTX are two popular graphics cards manufactured by NVIDIA. While both series are designed for different purposes, they share many similarities, such as the CUDA cores and GDDR memory.
However, some critical differences make them better suited for specific workloads and functionality.
The most significant difference between GTX and RTX graphics cards is the support for ray tracing technology.
- Ray tracing is a rendering technique that produces realistic lighting and shadow effects, making games and applications look more lifelike than ever before. RTX graphics cards are designed to support ray tracing technology, which gives them a significant advantage over GTX cards in terms of visual quality.
- Another significant difference between GTX and RTX cards is the inclusion of Tensor Cores in the latter. Tensor Cores are designed to support deep learning algorithms and enable artificial intelligence (AI) applications. This feature makes RTX graphics cards more suitable for machine learning and AI applications than GTX cards.
- RTX graphics cards also offer superior memory bandwidth, allowing faster data transfer and smoother performance. The latest RTX 30-series graphics cards also feature NVIDIA’s new Ampere architecture, which offers significant performance improvements over previous generations.
In contrast, GTX graphics cards are known for their reliability and affordability. While they don’t support ray tracing or Tensor Cores, they still offer excellent performance for gaming and other workloads. GTX graphics cards are available at various prices, making them accessible to many users. They also offer excellent value for money, with many models balancing price and performance.
In conclusion, choosing between a GTX or RTX graphics card ultimately depends on your needs and budget.
If you’re a hardcore gamer or involved in video editing and 3D modeling, an RTX graphics card is the better choice due to its advanced features and superior performance. However, if you’re on a budget or don’t require the advanced features of an RTX card, a GTX graphics card will provide excellent gaming and overall performance at a lower price point.
GTX 1080Ti vs RTX 2080
|
GPU architecture | Pascal |
Turing |
|---|---|---|
|
Frame Buffer |
11 GB GDDR5X |
8 GB GDDR6 |
|
Memory Speed |
11 Gbps |
14 Gbps |
|
Boost Clock |
1582 MHz |
1710 MHz |
|
Ray Tracing |
Not Supported |
Supported |
|
DLSS |
Not Supported |
Supported |
|
Price |
$1000 |
$700 |
Conclusion
In summary, choosing between an RTX or GTX graphics card ultimately depends on your needs and budget.
If you’re a hardcore gamer or involved in video editing and 3D modeling, an RTX graphics card is the better choice due to its advanced features and superior performance. However, if you’re on a budget or don’t require the advanced features of an RTX card, a GTX graphics card will provide excellent gaming and overall performance at a lower price point.
Regardless of your choice, RTX and GTX graphics cards are excellent for powering your gaming or professional workloads.