This whitepaper from Bright Computing discusses how through advanced automation, Bright Cluster Manager eliminates the complexity of building and managing high-performance Linux clusters, enabling greater organizational efficiency and flexibility. And now, Bright Cluster Manager also supports clusters in VMware vSphere—and goes one step further to enable high-performance clusters as a service.
Red Hat Introduces Open Source StackRox Community – Cluster Security for Kubernetes
May 4, 2021 – Red Hat today introduce the StackRox community, the upstream project that will work to open source and manage the code that powers Red Hat Advanced Cluster Security for Kubernetes. The goal is to support innovation within an industry traditionally dominated by proprietary security solutions. “Customers, partners and other interested contributors can learn […]
insideHPC Guide to Perfectly Tailored AI, ML or HPC Environment
In this insideHPC technology guide, “How Expert Design Engineering and a Building Block Approach Can Give You a Perfectly Tailored AI, ML or HPC Environment,”we will present things to consider when building a customized supercomputer-in-a-box system with the help of experts from Silicon Mechanics. When considering a large complex system, such as a high-performance computing […]
Deep Learning GPU Cluster
In this whitepaper, our friends over at Lambda walk you through the Lambda Echelon multi-node cluster reference design: a node design, a rack design, and an entire cluster level architecture. This document is for technical decision-makers and engineers. You’ll learn about the Echelon’s compute, storage, networking, power distribution, and thermal design. This is not a cluster administration handbook, this is a high level technical overview of one possible system architecture.
Increasing HPC Cluster Productivity Through System Resource Tracking
This white paper from Bright Computing addresses the necessary steps to give administrators, managers, and users the information they need to use HPC system resources effectively, to maximize system productivity, to enable effective resource sharing, to identify waste and to provide charge-back capability.
Supporting Diverse HPC Workloads on a Single Cluster
High Performance Computing is extending its reach into new areas. Not only are modeling and simulation being used more widely, but deep learning and other high performance data analytics (HPDA) applications are becoming essential tools across many disciplines. This sponsored post from Intel explores how Plymouth University’s High Performance Computer Centre (HPCC) used Intel HPC Orchestrator to support diverse workloads as it recently deployed a new 1,500-core cluster.