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Der GH200 Grace Hopper Superchip kombiniert die NVIDIA Grace™- und Hopper™-Architekturen mithilfe von NVIDIA ® NVLink ® -C2C, um ein kohärentes CPU- und GPU-Speichermodell für beschleunigte KI- und HPC-Anwendungen bereitzustellen.
Learn about the breakthrough processor for giant-scale AI and HPC applications, combining CPU and GPU coherent memory. See the superchip features, performance, software stacks, and reference design.
- Performance and Productivity For Strong-Scaling HPC and Giant Ai Workloads
- Programming Model For Performance, Portability, and Productivity
- Superchip Architectural Features
- Nvidia HGX Grace Hopper
- Nvidia HGX Grace Hopper with Infiniband
- Nvidia HGX Grace Hopper with NVLink Switch
- Delivering Performance Breakthroughs
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The NVIDIA Grace Hopper Superchip architecture brings together the groundbreaking performance of the NVIDIA Hopper GPU with the versatility of the NVIDIA Grace CPU, connected with a high bandwidth and memory coherent NVIDIA NVLink Chip-2-Chip (C2C) interconnect in a single superchip, and support for the new NVIDIA NVLink Switch System. NVIDIA NVLin...
Traditional heterogeneous platforms with PCIe-connected accelerators require users to follow a complex programming model that involves manually managing device memory allocations and data transfer to and from the host. The NVIDIA Grace Hopper Superchip platform is heterogeneous and easy to program, and NVIDIA is committed to making it accessible to...
Here’s a look at the main innovations of the NVIDIA Grace Hopper architecture: 1. NVIDIA Grace CPU 2. NVIDIA Hopper GPU 3. NVLink-C2C 4. NVLink Switch System 5. Extended GPU memory
NVIDIA HGX Grace Hopper has a single Grace Hopper Superchip per node, paired with BlueField-3 NICs or OEM-Defined I/O and optionally an NVLink Switch System. It can be air– or liquid-cooled and has up to 1,000W TDP.
NVIDIA HGX Grace Hopper with Infiniband (Figure 13) is ideal for the scale-out of traditional machine learning (ML) and HPC workloads that are not bottlenecked by network communication overheads of InfiniBand, which is one of the fastest interconnects available. Each node contains one Grace Hopper Superchip and one or more PCIe devices like NVMe so...
NVIDIA HGX Grace Hopper with NVLink Switch is ideal for strong scaling giant machine learning and HPC workloads. It enables all GPU threads in the NVLink-connected domain to address up to 150 TB of memory at up to 900 GB/s total bandwidth per superchip in a 256-GPU NVLink-connected system. The a simple programming model uses pointer load, store, an...
The NVIDIA Grace Hopper Superchip Architecturewhitepaper expands on the details covered in this post. It walks you through how Grace Hopper delivers the performance breakthroughs shown on Figure 1 over what is currently the most powerful PCIe-based accelerated platforms powered by NVIDIA Hopper H100 PCIe GPUs. Do you have any applications that woul...
Learn about the NVIDIA Grace Hopper Superchip, the first true heterogeneous accelerated platform for HPC and AI workloads. It combines the NVIDIA Hopper GPU with the NVIDIA Grace CPU, connected by NVLink-C2C and NVLink Switch System, delivering up to 900 GB/s bandwidth and 150 TB of memory.
The NVIDIA Grace™ Hopper™ architecture brings together the groundbreaking performance of the NVIDIA Hopper GPU with the versatility of the NVIDIA Grace CPU in a single superchip, connected with the high-bandwidth, memory-coherent NVIDIA® NVLink® Chip-2-Chip (C2C) interconnect.
20. Jan. 2023 · The NVIDIA Grace Hopper Superchip pairs a power-efficient, high-bandwidth NVIDIA Grace CPU with a powerful NVIDIA H100 Hopper GPU using NVLink-C2C to maximize the capabilities for strong-scaling high-performance computing (HPC) and giant AI workloads.
13. Nov. 2023 · NVIDIA Grace Hopper Superchip is a breakthrough technology that combines Arm-based CPU and GPU architectures for giant-scale AI and HPC applications. Learn how GH200 powers 40+ AI supercomputers across global research centers, system makers, cloud providers and more.
8. Aug. 2023 · NVIDIA today announced the next-generation NVIDIA GH200 Grace Hopper™ platform — based on a new Grace Hopper Superchip with the world’s first HBM3e processor — built for the era of accelerated computing and generative AI.
