The HP StorageWorks Modular Array 1000, part number 201723-B22, is a modular hard drive array designed to meet the requirements of mid-range and enterprise-level data storage needs. It offers scalability, reliability, and exceptional performance, making it an ideal solution for businesses that demand robust and flexible storage.
This array is specifically engineered to support both SCSI and Fibre Channel interfaces. It can house up to a total of 14 drives, providing a high level of configurability to adapt to various storage workloads. The flexibility of the array allows users to add storage as their requirements grow without having to reconfigure the overall system, making it scalable for future expansions.
The HP StorageWorks MA1000 offers support for hot-swappable hard drives, increasing uptime by allowing users to replace drives conveniently without shutting down the system. For connectivity, the array comes equipped with dual-controller architecture, which provides redundancy and improves system reliability by reducing the chance of a single point of failure.
The array supports RAID configurations, delivering data redundancy and fault tolerance, which is crucial for enterprises concerned about data loss or corruption. Another noteworthy feature is the array’s integrated management capabilities through the HP StorageWorks Command View Software, enabling administrators to monitor and manage storage components easily.
With a modular design, the HP StorageWorks MA1000 delivers a balance of performance and high availability, making it well-suited for mission-critical applications and virtualisation environments. It also enhances storage processing efficiency while maintaining a compact form factor for enterprise data centres.
EOL Technology Services offers expert guidance and a reliable source for professional services related to the HP StorageWorks MA1000. Our team can assist you with the procurement of replacement parts, troubleshooting, and extending the lifecycle of this array, ensuring your system performs optimally over time.