Entry-level desktop graphics card based on the Ampere architecture with 2304 CUDA cores and 72 Tensor cores for 1080p gaming with ray tracing and DLSS. Boost clock up to 1755 MHz, 8 GB GDDR6 memory on a 128-bit bus delivering 224 GB/s bandwidth, 130 W TDP and PCIe 4.0 interface with HDMI 2.1 and DisplayPort 1.4a outputs.
Mainstream desktop graphics card based on the Ampere architecture with 3584 CUDA cores and 112 Tensor cores for AI and ray tracing workloads. Base clock 1320 MHz with boost up to 1777 MHz, 12 GB GDDR6 memory on a 192-bit bus delivering 360 GB/s bandwidth, 170 W TDP, PCIe 4.0 x16 interface, DLSS support and HDMI 2.1 plus DisplayPort 1.4a…
Mainstream desktop graphics card based on the Ada Lovelace AD106-351 GPU with 4,352 CUDA cores, 136 4th-gen Tensor Cores and 34 3rd-gen RT Cores for high-refresh 1080p and 1440p gaming. Base clock 2310 MHz with boost up to 2535 MHz, 16 GB GDDR6 memory on a 128-bit bus delivering 288 GB/s bandwidth, 165 W TDP, PCIe 4.0 x8 interface and…
Enthusiast-class desktop graphics card based on the Ada Lovelace AD104-400 GPU with 7,680 CUDA cores, 240 4th-gen Tensor Cores and 60 3rd-gen RT Cores for high-refresh 1440p and 4K gaming. Base clock 2310 MHz with boost up to 2610 MHz, 12 GB GDDR6X memory on a 192-bit bus delivering 504.2 GB/s bandwidth, 285 W TDP, PCIe 4.0 x16 interface and…
Enthusiast-class desktop graphics card based on the Ada Lovelace AD102-400 GPU with 18,176 CUDA cores, 568 4th-gen Tensor Cores and 142 3rd-gen RT Cores for extreme 4K gaming and creative workloads. Base clock 2325 MHz with boost up to 2565 MHz, 24 GB GDDR6X memory on a 384-bit bus delivering 1.15 TB/s bandwidth, 600 W TDP, PCIe 4.0 x16 interface…
High-end professional workstation graphics card based on the Ada Lovelace architecture with 7,680 CUDA cores, 240 4th-gen Tensor Cores and 60 3rd-gen RT Cores for advanced visualization, AI and rendering. Base clock around 2070 MHz with boost up to 2580 MHz, 24 GB GDDR6 ECC memory on a 192-bit bus delivering 432 GB/s bandwidth, 210 W total board power and…
