The HPE ProLiant DL380 Gen10 server stands as a powerhouse in the realm of data center solutions, delivering exceptional performance, scalability, and reliability. At its core is the Intel Xeon Silver 4210R processor, featuring a deca-core (10 core) configuration running at a formidable 2.40 GHz. Backed by an impressive 256GB of RAM, this server excels in handling the most demanding workloads with ease, making it an ideal choice for enterprises with high-performance computing requirements.
Equipped with a robust 12Gb/s SAS controller, the DL380 Gen10 ensures high-speed data transfer and storage capabilities, catering to data-intensive applications and storage configurations. Housed in a space-efficient 2U rack form factor, the server offers 3 standard slots (X8, X16, X8 with dual M.2) as standard, with the flexibility to upgrade to 8 slots in a 2-processor configuration, providing adaptability for various expansion requirements.
Built with advanced security features and infrastructure protection, the DL380 Gen10 guarantees the highest levels of data integrity and system reliability. The server comes with HPE's iLO 5 for remote management, streamlining administrative tasks and facilitating efficient monitoring.
Whether deployed as a standalone server or integrated into a larger infrastructure, the HPE ProLiant DL380 Gen10 stands as a robust solution designed to meet the dynamic demands of contemporary data center environments.
The HPE ProLiant DL380 Gen10 is a data center powerhouse, featuring an Intel Xeon Silver 4210R deca-core processor at 2.40 GHz and a remarkable 256GB of RAM. With a 12Gb/s SAS controller, this server ensures high-speed data transfer and storage capabilities, ideal for data-intensive applications. The server offers 3 standard slots (X8, X16, X8 with dual M.2) as standard, upgradeable to 8 slots in a 2-processor configuration for versatile expansion options. Advanced security features and remote management via HPE's iLO 5 make the DL380 Gen10 an optimal choice for modern data centers and demanding workloads.
