789917-B21 – Proliant XL230a Gen9 Compute Tray CTO

Boost Computing Power with the HPE 789917-B21 ProLiant XL230a Gen9 Compute Tray CTO

The 789917-B21 – HPE ProLiant XL230a Gen9 Compute Tray CTO is a high-performance compute module designed to deliver flexibility, efficiency, and scalability for data-intensive applications. Ideal for high-performance computing (HPC), cloud environments, and data centers, this Gen9 Compute Tray supports Intel® Xeon® processors, providing powerful performance and energy efficiency. Engineered for HPE Apollo 6000 chassis, the XL230a Gen9 Compute Tray offers streamlined deployment and dense computing, allowing businesses to maximize processing power while optimizing physical space.

With a configurable (CTO) design, this compute tray enables you to customize it to meet your specific performance needs. It supports high-speed DDR4 memory, advanced networking options, and HPE’s integrated management tools, providing the reliability and manageability required in demanding environments. The ProLiant XL230a Gen9 Compute Tray CTO is ideal for businesses and organizations seeking a scalable solution to support growing data processing requirements.

Key Features

• High-Performance Computing: Powered by Intel® Xeon® processors (configurable), delivering powerful performance for data-intensive tasks and HPC workloads.
• Configurable (CTO) Design: Customizable to meet specific performance and workload requirements, ensuring flexibility for diverse applications.
• Optimized for Apollo 6000 Chassis: Seamlessly integrates into HPE Apollo 6000 chassis, offering dense computing and efficient use of rack space.
• DDR4 Memory Support: High-speed memory options improve data access speeds, enhancing overall system performance for demanding workloads.
• Advanced Networking Options: Equipped with flexible networking choices, providing high-speed connectivity for data center and cloud environments.
• Integrated HPE Management Tools: Simplifies server management and monitoring, improving efficiency and reducing operational costs.
• Energy-Efficient Design: Engineered to maximize performance while minimizing power consumption, supporting sustainable data center operations.