Radeon RX 5700 Series: Next-Gen Navi GPU With RDNA Debuts
If you missed our coverage of AMD's Navi GPU architecture and its newly-designed RDNA-infused microarchitecture and instruction set, you can find it right here. We strongly suggest checking that article out, because we cover a number of deep technical details, including Navi’s new compute unit design, multi-level cache hierarchy, pervasive support for Delta Color Compression, PCI Express 4.0, and the new Radeon Multimedia Engine that can handle 8K encoding while being roughly 40% faster than the previous generation. We also cover Fidelity FX, and the AMD Radeon Anti-Lag and Radeon Image Sharpening (RIS) features in the piece. AMD Radeon Anti-Lag can effectively reduce input lag in a number of popular games and RIS is a post-processing compute shader with an intelligent contrast-aware, sharpening algorithm that can draw out details in low contrast areas of a scene, without negatively impacting image quality in high contrast scenes.
Since we’ve covered all of that previously, we won’t re-hash it all again here. Instead, we’re going to focus on the Radeon RX 5700 XT and Radeon RX 5700 cards themselves and see how they perform versus AMD’s previous-gen products and NVIDIA’s newly-released competitive offerings. Take a look at the cards and their main features and specifications below, and then we’ll break things down a little further to see how these things handle the in the benchmarks...
Radeon RX 5700 Navi GPU Die Shot
The GPU at the heart of the Radeon RX 5700 series is manufactured using TSMC’s 7nm process node and is comprised of approximately 10.3 billion transistors. Its die size is roughly 251 square millimeters. The die size is particularly interesting because it is quite small relative to AMD’s previous-gen 14nm Vega and NVIDIA’s current-gen Turing GPUs, which are manufactured at 12nm.
Although we’ll be showing you our own numbers here soon enough, at its event last month, AMD claimed the Radeon RX 5700 XT would go toe-to-toe with the GeForce RTX 2070. The RTX 2070 is built around NVIDIA’s TU106 GPU, which features 10.8B transistors and a die size of 445 square millimeters – that’s 44% larger than Navi 10 (side note, Vega 64 was even larger at 495mm, not including its HBM2 memory). AMD seems to have taken a somewhat conservative approach here, which is to be expected when developing a new GPU architecture on a leading-edge manufacturing process. However, should AMD’s performance claims ring true, it also shows that the company could theoretically scale things up with this current design and potentially take on some of NVIDIA’s higher-end GPUs, should AMD want to take the fight to the top of Team Green’s stack.
Of course, NVIDIA dedicates significant die area to Turing’s RT and Tensor cores, of which Navi currently has no equivalent. Incorporating some sort of dedicated hardware for accelerating Ray Tracing
GeForce RTX 2060 Super. Meanwhile, AMD's Radeon RX 5700 is positioned against the original GeForce RTX 2060.
A Tale Of Two Radeon RX Navi CardsThe top-end Radeon RX 5700 XT features a fully-enabled Navi 10 GPU with 40 Compute Units, each with 64 Steam Processors, for a total of 2,560. The GPU is connected to 8GB of GDDR6 memory over a 256-bit interface with an effective data rate of 14Gbps, which equates to peak memory bandwidth of 448GB/s. The Radeon RX 5700 XT’s base GPU clock is 1,605MHz, with a 1,755MHz Game Clock and 1,905 max boost clock. AMD claims during real-world gaming sessions the actual GPU clock will likely fall somewhere between the Game Clock and max boost clock, assuming thermals and power are in-check. The GPU also has 64 ROPs, 160 texture units, and a max board power of 225 watts.
GPU configurations, the Radeon RX 5700 XT and RX 5700 have different cooler designs. The Radeon RX 5700 is reminiscent of the squared-off Radeon Vega designs, with a rectangular shroud and barrel-type fan situated off to the side of its heatsink. The Radeon RX 5700 XT, however, has been totally redesigned and commands more visual attention. The reference card will feature an aluminum shroud and back-plate, while the front shroud has an angled air-slot that reportedly helps optimize airflow over the heatsink to help keep the card quiet when it is idling or under a light load. There is a hefty vapor chamber, with a dense array of heatsink fins, that sits directly atop the GPU and RAM, and mates with the GPU through a graphite-based thermal interface. There is also a 7-phase, all-digital power circuit on the board to ensure ample power to the GPU.