Shows how IT professionals can construct a high-IOPS, low-cost storage area network using Intel® components and Openfiler* software.
Provides instruction on how IT professionals can construct a high-IOPS, low-cost storage area network using the Intel® SSD Data Center S3700 Series, Intel® Ethernet Controllers, and Openfiler* software.
Case Study: AppNexus gets greater capacity and performance and lower costs with Aerospike* in-memory NoSQL database with Intel® SSD DC S3700 Series.
Case Study: Aerospike*in-memory NoSQL database with Intel® SSD DC S3700 Series provides AppNexus with greater capacity while scaling up performance, reliability, serviceability, and reducing cluster size for lower costs.
White Paper: Principled Technologies finds Intel® Xeon® processor E5-2697 v2 and Windows Server* 2012 upgrades increase server performance, density.
White Paper: Principled Technologies finds an increase in server performance and density by upgrading legacy servers and storage servers with the new Intel® Xeon® processor E5-2697 v2, Windows Server* 2012, and the Intel® SSD DC S3700 series.
MicroStrategy improves their business intelligence customers’ overall experience by reducing data load times and increasing the number of active users on their Intelligent Cube* technology with the Intel® Solid-State Drive Data Center S3700 Series.
Specs and capabilities for the Intel® SSD DC S3700 Series, including capacity, performance, characteristics, environmental conditions, and more.
Describes the specifications and capabilities for the Intel® SSD DC S3700 Series, including capacity, performance, electrical characteristics, environmental conditions, regulatory compliance, and reliability.
Case Study: SAS upgraded their SAN storage with the Intel® SSD DC S3700 Series to better manage compute resources with improved workload scalability.
Case Study: To make better use of compute resources and control costs, SAS Performance Analysis Lab turned to the Intel® Solid State Drive DC S3700 Series to upgrade their SAN storage for improved workload scalability and reduced I/O demand.