Optimized Supermicro Storage Clusters
SuperStorage Servers Deploying Red Hat Ceph Storage are Optimized for Best
Throughput and Capacity
Executive Summary
Supermicro storage server users frequently request simple, optimized cluster configurations for different workload types. Common requests are for throughput-optimized and capacity-optimized workloads, but IOPS-intensive workloads on Ceph are also emerging. To address the need for performance, capacity, and sizing guidance, Supermicro and Red Hat have performed extensive testing to characterize optimized configurations for deploying Red Hat Ceph Storage on a range of Supermicro storage servers as detailed below.
SuperSolutions is offering advice and assistance on implementing your CEPH platform. For any questions, please call!!
Optimized Supermicro Storage Clusters
SuperStorage Servers Deploying Red Hat Ceph Storage are Optimized for Best
Throughput and Capacity
Executive Summary
Supermicro storage server users frequently request simple, optimized cluster configurations for different workload types. Common requests are for throughput-optimized and capacity-optimized workloads, but IOPS-intensive workloads on Ceph are also emerging. To address the need for performance, capacity, and sizing guidance, Supermicro and Red Hat have performed extensive testing to characterize optimized configurations for deploying Red Hat Ceph Storage on a range of Supermicro storage servers as detailed below.
SuperSolutions is offering advice and assistance on implementing your CEPH platform. For any questions, please call!!
Your CEPH Storage Solution
Conclusion
Supermicro evaluates, tests, and documents reference configurations that depict real-world deployment scenarios, giving data center managers specific and proven configuration advice that fits their application needs. The building block architectures described above provide a choice of throughput or cost/capacity workload focus, allowing data centers to customize their Supermicro server deployments to their needs. The architectures also provide a range of cluster sizes, ranging from hundreds of terabytes to multiple petabytes, with repeatable configurations that have been tested and verified by Red Hat and Supermicro engineers.