![NVIDIA Grace CPU Detailed: 72 Arm V9.0 Cores, 117 MB L3 Cache, 68 PCIe Gen 5 Lanes, TSMC 4N Process & 500W TDP NVIDIA Grace CPU Detailed: 72 Arm V9.0 Cores, 117 MB L3 Cache, 68 PCIe Gen 5 Lanes, TSMC 4N Process & 500W TDP](https://cdn.wccftech.com/wp-content/uploads/2022/08/NVIDIA-Grace-CPU-Superchips-_-Hot-Chips-34-_18-1030x579.png)
NVIDIA Grace CPU Detailed: 72 Arm V9.0 Cores, 117 MB L3 Cache, 68 PCIe Gen 5 Lanes, TSMC 4N Process & 500W TDP
![Inside NVIDIA Grace CPU: NVIDIA Amps Up Superchip Engineering for HPC and AI | NVIDIA Technical Blog Inside NVIDIA Grace CPU: NVIDIA Amps Up Superchip Engineering for HPC and AI | NVIDIA Technical Blog](https://developer-blogs.nvidia.com/wp-content/uploads/2022/08/image8-3.png)
Inside NVIDIA Grace CPU: NVIDIA Amps Up Superchip Engineering for HPC and AI | NVIDIA Technical Blog
![NVIDIA Grace CPU Delivers Up To 30% Higher Performance At 70% Better Efficiency Versus Latest x86 Data Center Chips NVIDIA Grace CPU Delivers Up To 30% Higher Performance At 70% Better Efficiency Versus Latest x86 Data Center Chips](https://cdn.wccftech.com/wp-content/uploads/2023/03/NVIDIA-Grace-Superchip-CPU-GTC-2023-_1-1456x819.png)
NVIDIA Grace CPU Delivers Up To 30% Higher Performance At 70% Better Efficiency Versus Latest x86 Data Center Chips
![Inside NVIDIA Grace CPU: NVIDIA Amps Up Superchip Engineering for HPC and AI | NVIDIA Technical Blog Inside NVIDIA Grace CPU: NVIDIA Amps Up Superchip Engineering for HPC and AI | NVIDIA Technical Blog](https://developer-blogs.nvidia.com/wp-content/uploads/2022/11/grace-hopper-superchip-1-e1670969676880.png)
Inside NVIDIA Grace CPU: NVIDIA Amps Up Superchip Engineering for HPC and AI | NVIDIA Technical Blog
![Inside NVIDIA Grace CPU: NVIDIA Amps Up Superchip Engineering for HPC and AI | NVIDIA Technical Blog Inside NVIDIA Grace CPU: NVIDIA Amps Up Superchip Engineering for HPC and AI | NVIDIA Technical Blog](https://developer-blogs.nvidia.com/wp-content/uploads/2022/08/image3-8.png)