Exanodes’ Shared Internal Storage design maximizes the investment in SSD by aggregating the performance and capacity of all available disks embedded in Linux-based or ESX application servers, and presenting them as a shared storage pool accessible by any server in the infrastructure.
By doing so, Exanodes maximizes SSD performance and can overcome its known pitfalls such as inadequate capacity and complexity. Combining SSD and Exanodes in a single solution results in a high-density, high-performance system suitable for environments and applications where SSDs were inefficient or unaffordable until now.
Exanodes-enabled SSD implementations offer great promise in architectures requiring high levels of performance such as a Virtual Desktop Infrastructure (VDI). Web 2.0 and High-performance computing environments such as bioinformatics, which requires robust and sophisticated applications to create, index, organize, search, and analyze data benefit as well.
Users interested in assessing the performance and workload gains of Exanodes coupled with SSDs may download a free trial version or register for a free webinar by filling the form below.
