Emerging CDI technologies allow you to achieve the cost and availability benefits of cloud computing using on-premises networking equipment. You also benefit from extreme flexibility, being able to dynamically recompose systems and support nearly any workload. Thanks to innovative engineering, these benefits are now available on the edge.
Successfully Deploy Composable Infrastructure on the Edge to Improve HPC and AI Outside of Traditional Data Centers
How Aerospace/Defense Can Harness Data with a Well-Designed AI Infrastructure
In this sponsored post, our friends over at Silicon Mechanics discuss how solving mission-critical problems using AI in the aerospace and defense industry is becoming more of a reality. Every day, new technologies emerge that can simplify deployment, management, and scaling of AI infrastructure to ensure long-term ROI. There are several questions to ask yourself to ensure deploying AI workloads, and harnessing the full potential of data, in aerospace/defense is much more plausible and efficient.
Two Key Considerations of a Composable Infrastructure Cluster
In this sponsored post, our friends over at Silicon Mechanics indicated that these days, they’re getting a lot of interest from clients about composable disaggregated infrastructure (CDI), including what the most critical elements are for CDI-based clusters. Successful deployments are more likely when clients understand why their design team focuses on certain areas more than others and how design decisions can impact end user experience, so this article outlines some key elements of CDI-based clusters.
System Design Decisions to Achieve Faster Results in Drug Discovery
When it comes to drug discovery, research is everything. The ability to accelerate research can make or break a business and, of course, save lives. However, key design considerations in HPC infrastructure design can make a dramatic difference in performance and maximize your cluster’s value. How do you maximize HPC/AI performance? We recommend you start by using commodity off the shelf (COTS) components and best-of-breed technologies from trusted partners. This lets you get more nodes for your money. This also avoids the problem of vendor lock-in, and the associated risk of being trapped into higher prices without the corresponding improvement….
Optimizing Resource Utilization and Maximizing ROI with Composable Infrastructure
In this sponsored post, Silicon Mechanics discusses how today’s IT organizations must maximize their resource utilization to deliver the computing capabilities their organization needs when and where it’s needed. This has resulted in many organizations building multi-purpose clusters, which impacts performance. Composable disaggregated infrastructure (CDI) can hold the key to solving this optimization problem, while also providing bare metal performance.
GigaIO Wins TACC Contract for Composable HPC – AI Infrastructure
San Diego, March 10, 2022 – GigaIO, maker of data center rack-scale architecture for artificial intelligence and HPC, today announced that production has begun on their composable disaggregated infrastructure testbed in the Lonestar6 system at the Texas Advanced Computing Center (TACC) at The University of Texas at Austin. Lonestar6 is a 600-node system utilizing Dell […]
insideHPC Guide to Composable Disaggregated Infrastructure (CDI) Clusters – Part 3
[SPONSORED POST] This technology guide, “insideHPC Guide to Composable Disaggregated Infrastructure (CDI) Clusters,” will show how the Silicon Mechanics Miranda CDI Cluster™ reference architecture can be a CDI solution blueprint, ideal for tailoring to specific enterprise or other organizational needs and technical issues. The guide is for a technical person, especially those who might be a sys admin in financial services, life sciences or a similarly compute-intensive field. This individual may be tasked with making CDI work with a realizable ROI or just finding a way to extend the value of their IT investment while still meeting their computing needs.
insideHPC Guide to Composable Disaggregated Infrastructure (CDI) Clusters – Part 2
[SPONSORED POST] This technology guide, “insideHPC Guide to Composable Disaggregated Infrastructure (CDI) Clusters,” will show how the Silicon Mechanics Miranda CDI Cluster™ reference architecture can be a CDI solution blueprint, ideal for tailoring to specific enterprise or other organizational needs and technical issues. The guide is for a technical person, especially those who might be a sys admin in financial services, life sciences or a similarly compute-intensive field. This individual may be tasked with making CDI work with a realizable ROI or just finding a way to extend the value of their IT investment while still meeting their computing needs.
insideHPC Guide to Composable Disaggregated Infrastructure (CDI) Clusters
[SPONSORED POST] This technology guide, “insideHPC Guide to Composable Disaggregated Infrastructure (CDI) Clusters,” will show how the Silicon Mechanics Miranda CDI Cluster™ reference architecture can be a CDI solution blueprint, ideal for tailoring to specific enterprise or other organizational needs and technical issues. The guide is for a technical person, especially those who might be a sys admin in financial services, life sciences or a similarly compute-intensive field. This individual may be tasked with making CDI work with a realizable ROI or just finding a way to extend the value of their IT investment while still meeting their computing needs.