AMD’s New RDNA 3 Based Navi 31 Has A Relatively Small Die Size And We Know Why
The new RDNA 3 based Navi 31 from AMD has a relatively small die size, and we know why. This new architecture from AMD is optimized for performance and efficiency, and the small die size helps to keep the cost down. The Navi 31 is a high-end GPU that will be used in gaming and other high-performance applications.
We already know that AMD is working on its next-generation RDNA 3 GPUs, which are expected to be released in 2021. The company has already confirmed that RDNA 3 will offer a significant performance increase over the existing RDNA 2 architecture, and now we have some more details about the upcoming GPUs.
According to a new report, the Navi 31 GPU, which is expected to be the flagship RDNA 3 GPU, will have a die size of just 519 mm2. This is relatively small for a high-end GPU, and it’s likely due to the fact that RDNA 3 is based on a smaller process node than RDNA 2.
This is good news for AMD, as it means that RDNA 3 GPUs will be more efficient than their predecessors. They will also be cheaper to produce, which should help AMD keep prices down when the GPUs are launched.
We don’t yet know what kind of performance we can expect from Navi 31, but it’s likely that it will be significantly faster than the existing RDNA 2 GPUs. AMD is expected to announce more details about RDNA 3 at its Computex event in June, so we’ll have to wait a little longer to find out more.
What is RDNA 3?
RDNA 3 is the next generation of AMD’s RDNA architecture. It is expected to bring significant improvements in performance and power efficiency. The first RDNA 3 based GPUs are expected to be released in 2021.
RDNA 3 is based on the company’s new “Navi” architecture and is the successor to the current RDNA 2 architecture. RDNA 3 will be manufactured on the 7nm+ process and will be compatible with the new PCI-Express 4.0 standard.
RDNA 3 will bring a number of new features and improvements over the current RDNA 2 architecture. These include:
– Increased number of shader cores
– Higher clock speeds
– Improved power efficiency
– Enhanced ray tracing and compute capabilities
The increased number of shader cores and higher clock speeds will result in a significant increase in performance. The improved power efficiency will help to reduce power consumption and heat generation. The enhanced ray tracing and compute capabilities will enable more realistic and accurate graphics rendering.
AMD is expected to release the first RDNA 3 based GPUs in 2021.
Why is Navi 31’s die size small?
We know that AMD’s new RDNA 3 based Navi 31 has a relatively small die size. But why is this?
It’s all thanks to the new 7nm process that TSMC is using to manufacture Navi 31. This process is more efficient than the previous 14nm process, meaning that more transistors can be packed into a smaller area. This also means that Navi 31 uses less power than its predecessor, which is important for gaming laptops and other power-sensitive devices.
One of the key benefits of the 7nm process is that it enables AMD to increase the clock speeds of its GPUs without increasing power consumption. This is why Navi 31 is able to offer such high performance despite having a smaller die size.
So there you have it: the small die size of Navi 31 is due to the new 7nm manufacturing process, which enables higher clock speeds and lower power consumption.
How does this impact performance?
We recently got our first look at AMD’s new RDNA 3 based Navi 31 GPU and it looks like it has a relatively small die size. This is likely due to the fact that it is based on the same 7nm process as the previous RDNA 2 based Navi 21 GPU. However, there are some key differences that should result in better performance.
For one, Navi 31 features a new compute unit (CU) design that is said to be up to 30% more efficient than the one used on Navi 21. This means that Navi 31 can pack more compute units (CUs) into the same die size, which should result in better performance.
Another key difference is that Navi 31 uses a new memory controller that supports both GDDR6 and HBM2 memory. This will allow Navi 31 to offer better performance than Navi 21, which is limited to GDDR6 memory.
Finally, Navi 31 will also feature a new I/O controller that supports PCIe 4.0. This will allow Navi 31 to offer double the bandwidth of Navi 21, which is still limited to PCIe 3.0.
All of these improvements should result in better performance from Navi 31. However, we will have to wait for more details and actual benchmarks to see how much of a performance increase we can expect.
As we have seen, the new RDNA 3 based Navi 31 has a relatively small die size. This is likely due to the fact that it is using the new RDNA 3 architecture, which is more efficient than the older GCN architecture. This means that AMD can pack more transistors into a smaller area, resulting in a smaller die size.