Curious about improving your 5G network? The Qualcomm Accelerators for HPE enhance 5G network infrastructure by providing high-performance, low-latency, and power-efficient capabilities to simplify the adoption of virtualized RAN platforms by operators and infrastructure vendors. These PCIe inline accelerator cards seamlessly integrate into standard Commercial-Off-The-Shelf (COTS) servers, offloading CPUs from latency-sensitive and compute-intensive 5G baseband L1/Physical Layer functions, like demodulation, beamforming channel coding, and Massive MIMO computation needed for high-capacity deployments. Qualcomm Accelerators for HPE are O-RAN compliant and include an upgradable L1 software architecture, certifying adaptability to future 3GPP release features, extending the platform's lifespan, and reducing total cost of ownership.
When deploying GPUs in a high-performance computing (HPC) environment, customers face substantial obstacles and inefficiencies caused by the need to port and refactor code. Their efforts are further hampered by proprietary GPU programming environments that prohibit portability between GPU vendors and often result in inconsistency between CPU and GPU implementations. The need for GPU-level memory bandwidth, at scale, and sharing code investments between CPUs and GPUs for running a majority of the workloads in a highly parallelized environment has become essential.
Intel Data Center GPU Max Series is designed for breakthrough performance in data-intensive computing models used in AI and HPC.
Do you require higher performance for artificial intelligence (AI) training and inference, high-performance computing (HPC) or graphics? NVIDIA® Accelerators for HPE help solve the world’s most important scientific, industrial, and business challenges with AI and HPC. Visualize complex content to create cutting-edge products, tell immersive stories, and reimagine cities of the future. Extract new insights from massive datasets. Hewlett Packard Enterprise servers with NVIDIA accelerators are designed for the age of elastic computing, providing unmatched acceleration at every scale.