In an exciting revelation, the mystery surrounding the next big leap in graphics technology is slowly unfolding. Just a day after the GeForce RTX 5090’s PCB was leaked, enthusiasts have now been given a tantalizing glimpse of the actual GPU. This latest image highlights the GB202, a cutting-edge graphics processor based on NVIDIA’s Blackwell architecture, which will serve as the powerhouse for the upcoming RTX 5090. Expectations are high for its grand unveiling at CES 2025 in January.
The GB202-300 silicon at the core of the RTX 5090 is a marvel of engineering, boasting an impressive count of 21,760 CUDA cores, making it the largest gaming GPU in NVIDIA’s new Blackwell series. The massive physical package measures approximately 63 x 56 mm, containing a die size of 24 x 21 mm, totaling a substantial 744 mm².
Fueling its performance, this GPU is accompanied by 16 Samsung GDDR7 memory chips, providing a generous 32 GB of memory. The configuration suggests a 512-bit wide memory bus, promising an extraordinary memory bandwidth of 1,792 GB/s, assuming a speed of 28 Gbps. This marks a significant advancement over previous generations, elevating gaming and graphics performance to new heights.
Supporting this powerhouse is a formidable 24-phase VRM solution, with the GPU anticipated to draw energy from a single 12+4-pin 12V-2×6 power connector. Capable of delivering a continuous 600W, the Total Graphics Power (TGP) of the RTX 5090 is speculated to range between 500-550W, potentially surging even higher under peak conditions.
Eagerly awaited at CES 2025 are both the GeForce RTX 5090 and RTX 5080 models, with rumors suggesting that the RTX 5080 might hit the market before its mightier counterpart. The presence of engineering samples with NVIDIA partners and the clear NVIDIA branding on these components lend credibility to the leaks, with only the production date remaining veiled in secrecy.
These revelations have set the stage for what could be a landmark moment in the evolution of gaming graphics, promising unprecedented performance and capabilities.
