In this white paper, we discuss the performance results of three industry-leading physics simulation software packages that are solving complex real-world problems, running on Supermicro's latest A+ BigTwin® server with AMD EPYC™ 7Fx2 processors.
Learn about the benefits of using NVIDIA NGC and NVIDIA TensorRT to get the best inference performance using Supermicro systems powered by NVIDIA GPUs. This white paper also shows how to set up NGC on a Supermicro server and how to use TensorRT for inference.
Open clouds allow for a wide range of both hardware and software choices compared to clouds that are created and maintained by external organizations.
The transformative new wave of technologies are driving global trends for artificial intelligence(AI), high-performance computing (HPC), and cloud computing. Implementing accelerated computing solutions from Supermicro and NVIDIA is crucial to becoming innovative and enabling AI-powered applications everywhere at speed and large scale.
Supermicro systems combined with Red Hat® Hyperconverged Infrastructure for Virtualization (RHHI-V) offers a simple, low-cost, and proven Hyperconverged Infrastructure (HCI) building blocks to run applications and data storage for edge and branch offices. These systems are designed to easily extend an existing data center with a Red Hat environment into the edge.
This white paper is intended to help an organization deploy an on-premises SUSE CaaS Platform cluster on Supermicro’s BigTwin™, Ultra and SuperStorage systems with the 2nd Generation Intel® Xeon® Scalable processor to support the latest, Kubernetes compatible workloads.