Supercomputer Nvidia

The NVIDIA A100 80GB PCIe Tensor Core GPU is engineered to accelerate AI, data analytics, and high-performance computing (HPC) workloads. Built on the NVIDIA Ampere architecture, it features 6,912 CUDA cores and 432 third-generation Tensor Cores, delivering up to 19.5 TFLOPS of FP64 performance and 312 TFLOPS of FP32 performance. The GPU is equipped with 80 GB of HBM2e memory, providing a memory bandwidth of up to 2 TB/s, facilitating rapid data processing for complex AI models and large datasets. Its support for Multi-Instance GPU (MIG) technology allows partitioning into up to seven isolated GPU instances, enabling optimal resource utilization across diverse workloads

The NVIDIA A100 80GB SXM Tensor Core GPU is engineered to accelerate AI, data analytics, and high-performance computing (HPC) workloads. Built on the NVIDIA Ampere architecture, it features 6,912 CUDA cores and 432 third-generation Tensor Cores, delivering up to 19.5 TFLOPS of FP64 performance and 312 TFLOPS of FP32 performance. The GPU is equipped with 80 GB of HBM2e memory, providing a memory bandwidth of up to 2 TB/s, facilitating rapid data processing for complex AI models and large datasets. 

The NVIDIA H100 NVL Tensor Core GPU is engineered for high-performance AI inference, particularly excelling in large language model (LLM) applications. Built on the NVIDIA Hopper architecture and fabricated using TSMC's 4N process, it integrates two GH100 GPUs, each equipped with 94 GB of HBM3 memory, totaling 188 GB. This configuration delivers a combined memory bandwidth of 7.8 TB/s, facilitating rapid data processing for complex AI workloads. The GPU supports up to 3,341 TFLOPS of FP8 Tensor Core performance and 835 TFLOPS with TF32 sparsity, ensuring efficient computation for diverse AI models. 

The NVIDIA H100 SXM Tensor Core GPU is built on the advanced NVIDIA Hopper architecture, utilizing TSMC's 5nm process technology. Designed for high-performance computing and AI workloads, this GPU delivers an exceptional 16,896 CUDA cores and 528 Tensor Cores of the fourth generation, enabling groundbreaking performance in deep learning, machine learning, and scientific simulations. With 80 GB of HBM3 memory and a memory bandwidth of 3.36 TB/s, the H100 ensures efficient data processing and smooth execution of the most demanding tasks. Its high interconnect bandwidth of 900 GB/s, thanks to NVIDIA NVLink, allows for seamless multi-GPU scaling.

The NVIDIA H200 NVL Tensor Core GPU is a high-performance graphics processor designed for data centers, cloud computing, and high-performance computing (HPC) workloads. It is built on the NVIDIA Hopper architecture and equipped with 141 GB of HBM3e memory with a memory bandwidth of 4.8 TB/s. With a maximum thermal design power (TDP) of up to 600 watts, the H200 NVL delivers exceptional performance for tasks requiring intensive computation, such as training and inference for deep learning models, large data processing, and scientific computing.

The NVIDIA H200 SXM Tensor Core GPU is engineered to accelerate generative AI and high-performance computing (HPC) workloads. Built on the NVIDIA Hopper™ architecture, it features 141 GB of HBM3e memory with a memory bandwidth of 4.8 TB/s, making it the first GPU to offer such high-capacity memory. This substantial memory capacity and bandwidth enable the handling of large-scale AI models and complex HPC simulations with improved efficiency.

The NVIDIA L4 Tensor Core GPU is a versatile, energy-efficient accelerator designed for AI inference, video processing, and graphics workloads in data centers and edge environments. Built on the Ada Lovelace architecture and fabricated using TSMC's 4N process, the L4 features 7,680 CUDA cores, 240 fourth-generation Tensor Cores, and 60 RT Cores. It comes equipped with 24 GB of GDDR6 memory on a 192-bit interface, delivering a memory bandwidth of 300 GB/s. Operating at a base clock of 795 MHz and boosting up to 2,040 MHz, the L4 achieves peak FP32 performance of 30.3 TFLOPS and FP8 Tensor performance up to 485 TFLOPS with sparsity. 

The NVIDIA L40S Tensor Core GPU is a high-performance accelerator designed for AI, graphics, and high-performance computing workloads in data centers. Built on the NVIDIA Ada Lovelace architecture, it features 18,176 CUDA cores, 568 fourth-generation Tensor Cores, and 142 third-generation RT Cores. Equipped with 48 GB of GDDR6 memory and a memory bandwidth of 864 GB/s, the L40S delivers exceptional performance for a wide range of applications. It supports advanced precision formats, including FP8, FP16, BF16, and TF32, achieving up to 1,466 TFLOPS of FP8 Tensor performance with sparsity.

The NVIDIA Quadro RTX 3000 is a professional-grade graphics card designed for high-performance mobile and embedded computing applications. Built on the NVIDIA Turing architecture, it features 2,304 CUDA cores, 36 RT cores, and 288 Tensor cores, delivering up to 6.4 TFLOPS of single-precision performance. Equipped with 6 GB of GDDR6 memory on a 192-bit interface, it offers a memory bandwidth of 336 GB/s. The card supports up to four DisplayPort 1.4 outputs and operates with a configurable TGP ranging from 60 to 80 W. Its MXM 3.1 Type B form factor makes it suitable for integration into compact systems.

The NVIDIA Quadro RTX 5000 is a high-performance professional graphics card designed for demanding design, visualization, and AI workloads. Built on the NVIDIA Turing architecture, it features 3,072 CUDA cores, 384 Tensor cores, and 48 RT cores, enabling real-time ray tracing and AI-accelerated workflows. With 16 GB of GDDR6 memory on a 256-bit interface, it offers a memory bandwidth of up to 448 GB/s. The card supports up to four 5K displays via four DisplayPort 1.4 outputs and includes a VirtualLink port for next-generation VR headsets.