E-SERIES
Storage Without Worries: Hard Working, Ultra-Reliable and Increased Performance
Storage Without Worries: Hard Working, Ultra-Reliable and Increased Performance
The E-Series storage platform has been deployed in the most demanding enterprise environments
offering unrivaled price and performance, robust connectivity options (FC, iSCSI) for seamless interoperability along with a robust qualified OS support matrix. The battle-tested E-Series Storage Arrays give you the capacity and performance needed for your structured data workloads, along with the ultra-reliability Nexsan is long known for.
The E-Series F storage platform takes the same industry proven, reliable storage architecture and enables the latest QLC NAND technology. The E-Series F is a perfect fit for quick access to analyze the high capacity, performance-sensitive workloads that fuel business — like real-time analytics, machine learning, artificial intelligence, big data, media content delivery, user authentication, and more.
E-Series is a high-density, high-performance, highly-scalable, ultra-reliable storage system that enables organizations to lower their storage costs, maximize storage uptime, and boost data storage ROI. E-Series is a versatile SAN or DAS solution to stay ahead of the enormous data growth, demanding workloads, and high resiliency requirements in a variety of businesses, including media & entertainment, government, healthcare, HPC, financial, surveillance and service provider sectors.
High performance block (FC, iSCSI) for structured data (databases and Exchange).
960TB in just 4U, or combine systems for over 9.6PB in a 42U rack.
Starts as small as 60TB and scales to over 2.16PB in one 12U configuration.
All systems are stress-tested to deliver the highest reliability out of the box.
Self-encrypting drives with AES-256 encryption protects your data when at rest.
Improve energy efficiencies and cost-savings.
Reduces vibration to increase drive performance.
Service drives whiles keeping data available for access.
Reduce heat to increase drive reliability and longevity.
– Sarah Channon, University of Maryland