The Cisco UCS Smart Play Bundle C210 Value (UCS-SP4-C210V) is an entry-level server with robust features designed for medium-sized business environments and data centre applications. This bundle comes equipped with the Intel Xeon E5649 processor, boasting a base clock speed of 2.53 GHz. It operates with a six-core, twelve-thread configuration, providing reliable performance for multi-tasking and demanding workloads.
This server supports up to 192 GB of DDR3 memory, ensuring that users have enough RAM to carry out memory-intensive tasks seamlessly. The system also offers substantial storage expandability, compatible with up to 16 internal hard drives to facilitate extensive local storage capacity and flexibility. The Smart Play C210 Value bundle supports both SATA and SAS drives, making it suitable for a broad range of enterprise and business-oriented applications where reliability and speed are crucial.
The Cisco UCS-SP4-C210V server comes integrated with dual Gigabit Ethernet ports, providing enhanced network connectivity for faster and more secure data communications. Furthermore, it includes redundant power supplies to ensure operational continuity, significantly reducing the risk of data loss or downtime due to power interruptions. It operates efficiently within the enterprise’s unified computing environment, streamlining the management and deployment of multiple systems with ease.
This server is also part of the Cisco UCS (Unified Computing System) product line, optimised for centralised management to help automate and streamline IT infrastructure. Administrators benefit from simple deployment, operational efficiency, and provisions for both virtualisation and business-critical applications.
EOL Technology Services offers comprehensive support for the Cisco UCS-SP4-C210V. Our professional services include expert guidance on system setup and configuration, alongside providing reliable replacement parts as needed. If assistance is required, we are equipped to ensure your system continues running efficiently with minimal disruption.
