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Cuda Grace: Directed by Scott Brazil. With Don Johnson, Cheech Marin, Jaime Gomez, Kelly Hu. A deadly carjacking leads Nash and the SIU team to a drug dealer who owns a Hemi Cuda similar to Nash's.
- (67)
- Action, Crime, Drama
- Scott Brazil
- 1998-04-03
- High-Speed Chip-To-Chip Interconnect with Nvlink-C2c
- Standards-Compliant Platforms with Nvidia Grace CPU
- Unified Memory with Grace Hopper Superchip
- Nvidia Scalable Coherency Fabric
- Memory Partitioning and Monitoring
- Boosting Bandwidth and Energy Efficiency with Memory Subsystem
- Extended GPU Memory
- Balancing Bandwidth and Energy Efficiency with Lpddr5x
- Nvidia Grace CPU I/O
- Nvidia Grace CPU Performance
Both the Grace Hopper and Grace Superchips are enabled by the NVIDIA NVLink-C2C high-speed chip-to-chip interconnect, which serves as the backbone for the superchip communication. NVLink-C2C extends NVIDIA NVLinkused to connect multiple GPUs in a server and, with NVLink Switch System, multiple GPU nodes. With 900 GB/s of raw bidirectional bandwidth...
NVIDIA Grace CPU Superchip is built to provide software developers with a standards-compliant platform. Arm provides a set of specifications as part of its Arm SystemReady initiative, which aims to bring standardization to the Arm ecosystem. Grace CPU targets the Arm system standards to offer compatibility with off-the-shelf operating systems and s...
Combining a Grace CPU with a Hopper GPU, the NVIDIA Grace Hopper Superchip expands upon the CUDA Unified Memory programming model that was first introduced in CUDA 8.0. NVIDIA Grace Hopper Superchip introduces Unified Memory with shared page tables, allowing the Grace CPU and Hopper GPU to share an address space and even page tables with a CUDA app...
Grace CPU introduces the NVIDIA Scalable Coherency Fabric (SCF). Designed by NVIDIA, SCF is a mesh fabric and distributed cache designed to scale to the needs of the data center. SCF provides 3.2 TB/s of bisection bandwidth to ensure the flow of data traffic between NVLink-C2C, CPU cores, memory, and system IOs. A single Grace CPU incorporates 72 C...
Grace CPU incorporates support for Memory System Resource Partitioning and Monitoring (MPAM) capability, which is the Arm standard for partitioning both system cache and memory resources. MPAM works by assigning partition IDs (PARTIDs) to requestors within the system. This design allows resources such as cache capacity and memory bandwidth to be pa...
To deliver excellent bandwidth and energy efficiency, Grace CPU implements a 32-channel LPDDR5X memory interface. This provides memory capacity of up to 512 GB and memory bandwidth of up to 546 GB/s.
A key feature of the Grace Hopper Superchip is the introduction of Extended GPU Memory (EGM). By allowing any Hopper GPU connected from a larger NVLink network to access the LPDDR5X memory connected to the Grace CPU in the Grace Hopper Superchip, the memory pool available to the GPU is greatly expanded. The GPU-to-GPU NVLink and NVLink-C2C bidirect...
The selection of LPDDR5X for Grace CPU was driven by the need to strike the optimal balance of bandwidth, energy efficiency, capacity, and cost for large-scale AI and HPC workloads. While a four-site HBM2e memory subsystem would have provided substantial memory bandwidth and good energy efficiency, it would do so at more than 3x the cost-per-gigaby...
Grace CPU incorporates a complement of high-speed I/O to serve the needs of the modern data center. The Grace CPU SoC provides up to 68 lanes of PCIe connectivity and up to four PCIe Gen 5 x16 links. Each PCIe Gen 5 x16 link offers up to 128 GB/s of bidirectional bandwidth and can be further bifurcated into two PCIe Gen 5 x8 links for additional co...
NVIDIA Grace CPU is designed to deliver excellent compute performance in both single-chip as well as Grace Superchip configurations, with estimated SPECrate2017_int_basescores of 370 and 740, respectively. These pre-silicon estimates are based on use of the GNU Compiler Collection (GCC). Memory bandwidth is critical to the workloads for which the G...
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Nov 16, 2023 · Video 1. NVIDIA Grace CPU Performance Tuning with NVIDIA Nsight Tools. Learn more and get started with Nsight Systems 2023.4. Nsight Systems is also available in the HPC SDK and CUDA Toolkit. Accelerated computing for HPC. NVIDIA provides an ecosystem of tools, libraries, and compilers for accelerated computing on the NVIDIA Grace and Hopper ...
Nov 10, 2022 · 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. Figure 2.
The NVIDIA Grace™ CPU is a groundbreaking Arm® CPU with uncompromising performance and efficiency. It can be tightly coupled with a GPU to supercharge accelerated computing or deployed as a powerful, efficient standalone CPU. The NVIDIA Grace CPU is the foundation of next-generation data centers and can be used in diverse configurations for ...
Mar 23, 2022 · The Grace CPU Superchip supports Nvidia's entire CUDA stack and will run the full gamut of Nvidia's applications, including Nvidia RTX, Nvidia AI, HPC, and Omniverse. The chips begin shipping in ...
