The HP StorageWorks MSL5026SL, part number 302511-B22, is a highly efficient tape library solution designed for enterprise-level data storage needs. It employs the Super DLT (Digital Linear Tape) technology, offering a reliable and cost-effective means of backing up and archiving large volumes of data. With built-in SCSI connectivity, it ensures seamless integration into existing network environments that require high-speed data transfer capabilities.
This tape library is equipped with an impressive capacity of up to 26 cartridges, making it suitable for medium-to-large organisations with substantial data storage demands. Each Super DLT cartridge has the potential to store up to 600GB of compressed data, significantly boosting storage efficiency. The MSL5026SL features two drive bays that can accommodate up to two Super DLT tape drives, thus enhancing data throughput and offering scalability for growing business needs.
Additionally, the library is designed to offer flexibility in various storage configurations, supporting both nearline storage and offline backup strategies. Its robotic arm enables efficient management of tape movements to and from the drives, providing an automated solution for tape swapping without the need for manual intervention. This automation helps reduce the operational costs associated with long-term data retention.
The HP StorageWorks MSL5026SL also boasts a robust design, enabling it to operate in demanding conditions within enterprise storage environments. Its effective mechanical structure and intuitive management features, like remote management capabilities, make it easy to monitor and configure the device remotely, minimising the need for on-site personnel.
EOL Technology Services offers expert support, professional services, and genuine replacement parts for the HP StorageWorks MSL5026SL. We ensure that your business continues to operate efficiently by providing ongoing technical assistance and replacement hardware whenever needed, guaranteeing the tape library remains in optimal condition throughout its lifecycle.