The HPE 880096-001 8GB/s Fibre Channel MSA 1050 SAS Controller is a high-performance storage controller designed for use with HPE MSA 1050 storage arrays.
Key features and benefits of this controller include:
Fibre Channel connectivity: Provides fast and reliable 8GB/s Fibre Channel connectivity for HPE MSA 1050 storage arrays.
High performance: Delivers fast and efficient data access for demanding workloads, with support for high-bandwidth 8GB/s Fibre Channel connections.
Dual ports: Supports redundancy and high-availability for mission-critical applications, with two Fibre Channel ports for increased reliability.
Easy installation: Fits into a half-height, half-length PCI Express (PCIe) slot, making it easy to install and integrate into HPE data centers.
Compatibility: Compatible with HPE MSA 1050 storage arrays, making it a flexible and scalable solution for HPE data centers.
The HPE 880096-001 8GB/s Fibre Channel MSA 1050 SAS Controller is an ideal solution for organizations looking to upgrade their storage connectivity and performance. With fast and reliable Fibre Channel connectivity, high-performance data access, and easy installation, this controller provides a flexible and scalable solution for HPE data centers.
Data Transfer Rates and Performance
The HPE 880096-001 8GB/s Fibre Channel MSA 1050 SAS Controller is a high-performance storage controller designed for use with HPE MSA 1050 storage arrays.
Data Transfer Rates:
The controller supports 8GB/s Fibre Channel data transfer rates, providing fast and efficient data access for demanding workloads.
Performance:
The HPE 880096-001 SAS Controller is designed to deliver high performance and reliability for HPE MSA 1050 storage arrays.
The 8GB/s Fibre Channel interface provides fast data transfer rates, allowing for fast and efficient storage connectivity.
The controller is optimized for use with HPE MSA 1050 storage arrays, ensuring that performance is maximized and compatibility issues are minimized.
Compatibility with HPE MSA 1050 Storage Arrays
The HPE 880096-001 8GB/s Fibre Channel MSA 1050 SAS Controller is designed for use with HPE MSA 1050 storage arrays.
Compatibility specifications for this controller include:
Compatible Storage Arrays: HPE MSA 1050
Operating Systems: Microsoft Windows Server, Red Hat Enterprise Linux, SUSE Linux Enterprise Server, VMware vSphere, and other operating systems that support 8GB/s Fibre Channel connectivity
Compatible Storage Devices: 8GB/s Fibre Channel storage devices, including HPE MSA and other compatible Fibre Channel storage arrays
This controller provides high-speed 8GB/s Fibre Channel connectivity for HPE MSA 1050 storage arrays. The controller supports a range of operating systems that provide 8GB/s Fibre Channel connectivity, making it a flexible solution for data centers. Additionally, the controller supports 8GB/s Fibre Channel storage devices, allowing for fast and efficient storage access for demanding workloads.
General Information
Brand: HPE
MPN : 880096-001
Type: Controller
Sub-Type: Fibre Channel
Technical Specifications of the 880096-001 Controller
The HPE 880096-001 8GB/s Fibre Channel MSA 1050 SAS Controller is a high-performance storage controller designed for use with HPE MSA 1050 storage arrays.
Technical specifications for this controller include:
Form Factor: Half-height, Half-length (HHHL) PCI Express (PCIe) card
Compatible Storage Arrays: HPE MSA 1050
Interface: 8 Gigabit per second (8Gbps) Fibre Channel
Data Transfer Rates: Up to 8Gbps
Number of Ports: 2
Operating Temperature: 10°C to 35°C (50°F to 95°F)
Power Requirements: 25W (maximum)
Dimensions: 168mm x 69.85mm
Weight: 0.26kg (0.57lbs)
This controller provides high-speed 8Gbps Fibre Channel connectivity for HPE MSA 1050 storage arrays, delivering fast and efficient data access for demanding workloads. With two ports, the controller supports redundancy and high-availability for mission-critical applications. The card is easy to install and fits into a half-height, half-length PCIe slot, making it a flexible and scalable solution for HPE data centers.