NVIDIA’s upcoming RTX 5080 Laptop GPU is rumored to be 40-60% faster than the RTX 4080, featuring 16GB GDDR7 memory and 7680 CUDA cores. The official launch is anticipated at CES 2025, promising a significant leap in mobile gaming performance with higher frame rates and resolutions. Expect new high-end gaming laptops to showcase this technology.
NVIDIA’s upcoming RTX 5080 Laptop GPU is rumored to be 40-60% faster than the RTX 4080, featuring 16GB GDDR7 memory and 7680 CUDA cores. The official launch is anticipated at CES 2025, promising a significant leap in mobile gaming performance with higher frame rates and resolutions. Expect new high-end gaming laptops to showcase this technology.
New leaks suggest NVIDIA’s upcoming GeForce RTX 5080 Laptop GPU will be a powerhouse, boasting a 45-65% performance leap over the RTX 4080 and rivaling desktop RTX 4070 Ti and 4080 levels. The GPU is rumored to feature 8000+ CUDA cores, 16GB of GDDR7 memory, and a TDP of 175W, making it a game-changer for 2025 gaming laptops.
According to recent rumors, NVIDIA’s upcoming GeForce RTX 5090 Laptop GPU will feature a whopping 24GB of GDDR7 memory, a significant upgrade from the previous generation. This powerful GPU, based on the Blackwell architecture, is expected to launch in late Q1 or early Q2 2025, potentially alongside a 16GB RTX 5080 variant. The rumor mill also suggests NVIDIA might initially release desktop RTX 5080 and 5090 models with traditional 2GB GDDR7 modules, later transitioning to the larger 3GB modules for the 24GB laptop variant.
NVIDIA is adding a new twist to its GeForce RTX 30 Series by releasing a revamped GeForce RTX 3050 Laptop GPU. This new version will utilize the Ada Lovelace architecture, similar to the GeForce RTX 40 Series, offering a boost in efficiency and performance. The news comes from The PC ID Repository and is further confirmed by NVIDIA’s latest driver release. This new GPU, codenamed AD106M, packs a bigger chip compared to the RTX 4050 Laptop GPU, offering better performance and potentially a more compact design.
