The HP Integrity BL870c (part number AH232AR#0D1) is a high-performance blade server designed for mission-critical environments. This specific configuration is delivered without a CPU, providing flexibility for users to configure the processor that best suits their workload requirements. The HP Integrity BL870c supports Intel® Itanium® processors, known for their reliability and scalability in handling demanding enterprise applications.
This model is housed in a compact blade form factor, designed to be deployed within HP's BladeSystem c-Class enclosures. The enclosure solution maximises the use of space and power, making it an ideal choice for data centres needing to balance high performance with a minimal footprint. The HP Integrity BL870c can be configured with multiple operating systems, including HP-UX, OpenVMS, and Linux, giving organisations the versatility to choose the operating environment that best fits their infrastructure needs.
Memory scalability is another highlight of the HP Integrity BL870c, with capacity for up to several terabytes of high-performance DDR memory modules. This ability for high memory capacity allows the server to excel in tasks requiring large data sets in-memory, such as analytics, ERP, and large database workloads. Additionally, this server comes with redundant power supplies and advanced cooling features, which ensure maximum uptime and system reliability during heavy operations.
While this configuration comes with no CPUs installed, it offers adaptability for a range of IT environments, thanks to its compatibility with newer as well as legacy HP BladeSystem components. Expansion options include space for multiple I/O cards, allowing users to customise their networking and storage to meet specific needs.
EOL Technology Services provides comprehensive support for the HP Integrity BL870c (part number AH232AR#0D1), helping with professional services such as configuration assistance, maintenance, and sourcing of replacement parts. Our expert team is available to ensure smooth operations and the ongoing availability of critical components.