The Most Advanced GPU, Ranked

Voting rules: Choose the GPU you think is the most advanced!

Updated on Apr 20, 2024 06:18

As technology progresses, the quest for the most powerful GPU becomes increasingly competitive. Manufacturers are continuously pushing the boundaries with new innovations, making it difficult for users to keep track of which GPU offers the best performance for their specific needs. This is particularly crucial for professionals in fields like gaming, graphic design, and video editing, where cutting-edge GPU performance can significantly impact productivity and quality. By participating in voting on this list, users help maintain a current and accurate ranking of available GPUs based on real-user feedback and experiences. This dynamic ranking assists both newcomers and seasoned tech enthusiasts in making informed decisions when purchasing new hardware. Every vote contributes to a clearer picture of which GPUs stand out in the market today.

What Is the Most Advanced GPU?

1

63
votes
NVIDIA A100 Tensor Core GPU

NVIDIA

NVIDIA A100 Tensor Core GPU - considered the most advanced GPU in the market, designed for AI and high-performance computing workloads. It has 6,912 CUDA cores and 54 billion transistors.
The NVIDIA A100 Tensor Core GPU is a highly advanced graphics processing unit designed for accelerated artificial intelligence and high-performance computing workloads. It is based on the NVIDIA Ampere architecture and is the company's most powerful GPU to date.

Architecture: NVIDIA Ampere

CUDA Cores: 6,912

Tensor Cores: 432

Memory: 40 GB HBM2

Memory Bandwidth: 1.6 TB/s
2

30
votes
AMD Radeon RX 6900 XT

AMD Radeon RX 6900 XT - considered the most advanced GPU from AMD, with 80 compute units and 16GB GDDR6 memory. It is designed for high-end gaming and content creation.
The AMD Radeon RX 6900 XT is a high-end graphics processing unit (GPU) designed for gaming and professional workloads. It is part of AMD's RDNA 2 architecture and is built on a 7nm process technology. The GPU offers impressive performance and features, making it one of the most advanced options available in the market.

Architecture: RDNA 2

Process Technology: 7nm

Compute Units: 80

Stream Processors: 5120

Base Clock Speed: 1825 MHz
3

17
votes
PantheraLeo1359531 · CC BY 4.0

NVIDIA GeForce RTX 3090

NVIDIA

NVIDIA GeForce RTX 3090 - the most powerful GPU for gaming, with 10496 CUDA cores and 24GB GDDR6X memory. It can handle 8K gaming and ray tracing.
The NVIDIA GeForce RTX 3090 is a state-of-the-art gaming system that delivers unparalleled performance and cutting-edge features. It is designed for gamers and content creators seeking the highest level of visual fidelity and smooth gameplay. With its powerful GPU and advanced technologies, this graphics card takes gaming to a whole new level.

GPU Architecture: NVIDIA Ampere

CUDA Cores: 10496

Boost Clock: 1.70 GHz

VRAM: 24 GB GDDR6X

Memory Speed: 19.5 Gbps
4

9
votes
NVIDIA Quadro RTX 8000

NVIDIA

NVIDIA Quadro RTX 8000 - designed for professional graphics and AI workloads, with 4608 CUDA cores and 48GB GDDR6 memory. It has hardware support for ray tracing and AI acceleration.
The NVIDIA Quadro RTX 8000 is a high-performance graphics processing unit designed for professional applications. It offers unparalleled power and capabilities for tasks such as real-time ray tracing, AI-enhanced workflows, and large-scale visualizations. With its advanced features and industry-leading performance, the Quadro RTX 8000 is a top choice for professionals in fields such as architecture, engineering, scientific research, and content creation.

Architecture: Turing

GPU Memory: 48 GB GDDR6

CUDA Cores: 4608

Tensor Cores: 576

RT Cores: 72
5

20
votes
AMD Radeon Pro VII

Advanced Micro Devices (AMD)

AMD Radeon Pro VII - designed for professional graphics and content creation, with 3840 stream processors and 16GB HBM2 memory. It supports PCIe 4.0 and has hardware encoding and decoding capabilities.
The AMD Radeon Pro VII is a high-performance GPU designed for professional graphics workloads. It offers advanced features and capabilities targeted towards content creators, designers, and engineers.

Architecture: RDNA

Process Node: 7nm

Compute Units: 60

Stream Processors: 3840

Base Clock: 1400 MHz
6

7
votes
NVIDIA Tesla V100

NVIDIA

NVIDIA Tesla V100 is designed for AI and high-performance computing, with 5,120 CUDA cores and 16GB HBM2 memory. It has a throughput of 7.8 teraflops for double-precision calculations.
The NVIDIA Tesla V100 is a highly advanced graphics processing unit (GPU) designed for data centers and high-performance computing systems. It leverages the NVIDIA Volta architecture and offers unparalleled processing power for a wide range of applications.

Architecture: NVIDIA Volta

Tensor Cores: 5,120

CUDA Cores: 5,120

Memory Capacity: 16 GB, 32 GB, or 32 GB + 32 GB (HBM2)

Memory Bandwidth: 900 GB/s
7

4
votes
AMD Radeon Instinct MI100

Advanced Micro Devices (AMD)

AMD Radeon Instinct MI100 is designed for AI and HPC workloads, with 7,680 stream processors and 32GB HBM2 memory. It has a peak performance of 11.5 teraflops for single-precision calculations.
The AMD Radeon Instinct MI100 is an advanced Graphics Processing Unit (GPU) developed by Advanced Micro Devices (AMD). It is designed specifically for high-performance computing (HPC) and artificial intelligence (AI) workloads. The MI100 is based on the CDNA architecture and built on the 7nm process technology.

Peak FP32 Performance: 23.1 TFLOPS

Architecture: CDNA

Process Technology: 7nm

Compute Units: 120

Stream Processors: 7680
8

5
votes
NVIDIA Titan RTX

NVIDIA

NVIDIA Titan RTX - designed for deep learning, AI, and gaming, with 4,608 CUDA cores and 24GB GDDR6 memory. It has hardware support for real-time ray tracing and AI acceleration.
The NVIDIA Titan RTX is a high-end graphics processing unit (GPU) designed for professional and enthusiast users looking for unparalleled performance and cutting-edge features. It is part of NVIDIA's Turing architecture lineup and represents one of the most advanced GPUs available on the market.

CUDA Cores: 4,608

Tensor Cores: 576

RT Cores: 72

GPU Architecture: Turing

Memory Size: 24 GB GDDR6
NVIDIA Titan RTX in other rankings
- Position 5 of 10 in Most advanced PC
9

8
votes
AMD Radeon RX 6800 XT

Advanced Micro Devices (AMD)

AMD Radeon RX 6800 XT - designed for high-end gaming and content creation, with 72 compute units and 16GB GDDR6 memory. It supports PCIe 4.0 and has hardware encoding and decoding capabilities.
The AMD Radeon RX 6800 XT is a high-performance graphics processing unit (GPU) designed for gaming and content creation. It is the most advanced GPU in AMD's Radeon RX 6000 Series.

Architecture: RDNA 2

Process Node: 7nm

Stream Processors: 4608

Base Clock: 1825 MHz

Boost Clock: 2250 MHz
AMD Radeon RX 6800 XT in other rankings
- Position 9 of 10 in Most popular GPU
10

1
votes
NVIDIA GeForce RTX 3080

NVIDIA

NVIDIA GeForce RTX 3080 - designed for high-end gaming and content creation, with 8704 CUDA cores and 10GB GDDR6X memory. It supports PCIe 4.0 and has hardware support for ray tracing and AI acceleration.
The NVIDIA GeForce RTX 3080 is an advanced graphics processing unit (GPU) designed for high-performance gaming and professional applications. It belongs to the RTX 30 series lineup of GPUs, featuring cutting-edge technologies and superior power to deliver realistic graphics and exceptional gameplay experiences.

Architecture: Ampere

Process Technology: Samsung 8nm

CUDA Cores: 8704

Tensor Cores: 272

RT Cores: 68

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Ranking factors for advanced GPU

Compute Performance

Compute performance, measured in floating-point operations per second (FLOPS), is a key indicator of how fast a GPU can process data and execute complex calculations. Higher FLOPS ratings indicate better performance.
Memory Capacity and Bandwidth

The amount and speed of a GPU's memory play a significant role in its performance. A larger memory capacity allows the GPU to handle larger datasets and textures, while higher memory bandwidth enables faster data transfer between the GPU and its memory.
Architecture

The design and features of a GPU's architecture, such as the number and arrangement of compute units or streaming multiprocessors, can influence its performance and efficiency. Advanced architectures may offer better performance-per-watt or support additional features.
Power Consumption and Efficiency

Power usage is an important consideration for system builders and data center operators. More efficient GPUs provide better performance for a given power budget, reducing energy costs and heat output.
API support

Support for popular graphics and compute APIs, such as Vulkan, DirectX, OpenGL, and OpenCL, ensure compatibility with a wide range of software and enable developers to optimize their applications for the GPU.
Ray Tracing and AI Capabilities

Modern GPUs may include dedicated hardware for ray tracing or AI tasks, accelerating real-time rendering and compute tasks. These features can significantly improve performance in specific use cases.
Price-to-performance ratio

Comparing the cost of the GPU to its performance can help you find the best value for your specific needs. This can include the initial purchase cost and potential energy savings over time.
Vendor Ecosystem and Support

Driver updates, software optimization, and support from the GPU vendor can greatly impact performance and compatibility. Established vendors with a history of strong support and optimization can be an advantage.
Scalability and Multi-GPU support

Advanced users and data center operators may require multiple GPUs working in tandem for even greater performance. Support for multi-GPU configurations and the ability to scale performance linearly can be important factors.
Benchmark Results

Real-world benchmark results from reputable sources can provide an indication of a GPU's performance in specific applications or games, allowing you to compare the performance of different GPUs more accurately.

About this ranking

This is a community-based ranking of the most advanced GPU. We do our best to provide fair voting, but it is not intended to be exhaustive. So if you notice something or GPU is missing, feel free to help improve the ranking!

Statistics

1529 views
163 votes
10 ranked items

Voting Rules

A participant may cast an up or down vote for each GPU once every 24 hours. The rank of each GPU is then calculated from the weighted sum of all up and down votes.

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More information on most advanced gpu

The world of computer graphics and gaming has come a long way since the early days of pixelated graphics and basic 3D models. Today, we have access to some of the most advanced GPUs (Graphical Processing Units) that can render highly complex graphics and run even the most demanding of video games. A GPU is a specialized processor that is designed to handle complex visual data and calculations in real-time. It works in tandem with the CPU (Central Processing Unit) to ensure that your system can run smoothly and handle tasks such as video editing, gaming, and 3D modeling. There are several companies that manufacture GPUs, including industry giants like Nvidia and AMD. These companies have been in fierce competition to produce the most advanced and powerful GPUs for both gamers and professionals alike. With each new generation of GPUs, we see significant improvements in performance, efficiency, and visual quality. So, what is the most advanced GPU on the market today? That's a tough question to answer, as there are several high-end models that can compete for the title. However, by taking a closer look at the latest offerings from Nvidia and AMD, we can get a better understanding of what makes a GPU truly advanced and powerful.