Choosing the right server means deciding on the right balance of I/O and computer power for your workloads. When you need a tremendous amount of raw I/O power, you may want to consider a configuration with NVMe PCIe solid-state drives (SSDs). These SSDs connect directly to the processors, bringing storage close to computer and providing fast performance. The Intel® Xeon® Scalable processor-powered Dell EMC PowerEdge™ R740xd has the compute and I/O scalability to handle four, eight, or twelve NVMe PCIe SSDs.
Intel Inside®. New Possibilities Outside.
Database users are increasingly interested in using Flash-based solid-state drives (SSDs) to speed up application performance. For many database administrators (DBAs), increased database performance directly impacts their user experience and bottom lines. Accelerating a single MySQL instance may allow DBAs to avoid painful sharding exercises, with all their attendant administration, application changes, and high capital and ongoing costs. With the wide range of SSDs available today, choosing any one can be difficult. This paper aims to answer the question, “Is it better to use slower SATA SSDs in RAID or a faster PCIe SSD to scale up MySQL database performance?"
In addition to high reliability and availability, enterprise mission critical applications, data centers operating 24x7, and data analysis platforms all demand powerful data processing capabilities and stability. The NEC PCIe SSD Appliance for Microsoft® SQL Server® is a best-practice reference architecture for such demanding workloads. It comprises an Express 5800 Scalable Enterprise Server Series with Intel® Xeon® processor E7 v2 family CPUs, high-performance HGST FlashMAX II PCIe server-mounted flash storage, and Microsoft® SQL Server®
2014. When compared with the previous reference architecture based on a server with the Intel® Xeon® processor E7 family CPUs, benchmark testing demonstrated a performance improvement of up to 173% in logical scan rate in a data warehouse environment. The testing also demonstrated consistently fast and stable performance in online transaction processing (OLTP) that could potentially be encountered.