Recent leaks suggest that AMD’s upcoming Radeon RX 9070 XT graphics card will deliver a significant performance boost over the current RX 7900 GRE. According to internal testing data, the RX 9070 XT is, on average, 42% faster than the RX 7900 GRE at 4K resolution with ultra settings across more than 30 games. In titles that heavily utilize ray tracing, such as Cyberpunk 2077 and Hitman 3, performance gains reportedly reach up to 168%.
Enhanced Ray Tracing Capabilities
The substantial improvements in ray tracing performance can be attributed to AMD’s new RDNA 4 architecture, which introduces third-generation ray tracing accelerators. This advancement aims to close the gap with NVIDIA’s offerings, providing gamers with a more immersive visual experience in ray-traced titles.
Specifications and Power Consumption
The RX 9070 XT is expected to feature 4,096 stream processors, a boost clock of up to 3.1 GHz, and 16 GB of GDDR6 memory on a 256-bit interface, delivering a bandwidth of 644 GB/s. The total board power (TBP) is reported to be 304 watts, indicating a balance between performance and power efficiency.
Official Announcement and Availability
AMD has scheduled an official presentation for the Radeon RX 9000 series on February 28, 2025, at 8 AM EST. The event will provide detailed insights into the new GPUs, including performance metrics, pricing, and release dates. Retail availability for the RX 9070 XT is anticipated to begin on March 6, 2025.
Competitive Landscape
The RX 9070 XT is positioned to compete directly with NVIDIA’s RTX 5070 Ti, which is priced at $749 and scheduled for release on February 20, 2025. AMD’s pricing strategy for the RX 9070 XT is expected to be aggressive, potentially offering a compelling alternative for gamers seeking high performance at a more accessible price point.
As the official announcement approaches, enthusiasts eagerly await comprehensive benchmarks and reviews to validate these claims and assess the RX 9070 XT’s position in the current GPU market.
Nice GPU
hope GPUs will be cheap