Leírás és Paraméterek
P9D94A HP Enterprise StoreFabric SN1100Q 16Gb Dual Port
- Host bus adapter
- PCIe 3.0 low profile
- 16Gb Fibre Channel x 2
- for SimpliVity 380 Gen10 Node
Hewlett Packard Enterprise P9D94A. Internal, Connectivity technology: Wired, Host interface: PCI-E, Interface: Fiber. Data transfer rate (max): 16 Mbit/s
Looking for a high-bandwidth solution to meet the requirements of increasing server virtualization and consolidation? Finding it difficult to realize the full-bandwidth potential of your server running I/O intensive applications? HPE StoreFabric SN1000 16Gb host bus adapters enable more rapid storage and retrieval of critical information when using high-bandwidth cloud applications and storage intensive applications such as backup, database transactions and rich media. Designed for greater virtual machine density and bandwidth requirement environments, the SN1000 16Gb HBAs enable more applications and virtual machines to run on a single server and port, resulting in reduced cabling and higher return on IT investment. A 16Gb FC HBA will protect future investments.
- High performing Fiber Channel host bus adapters
The HPE StoreFabric SN1000 16Gb host bus adapters deliver twice the I/O performance of 8Gb Fiber Channel HBAs. Moving to 16Gb technology provides the infrastructure required for the more powerful servers and data intensive applications of the future. When using storage intensive applications like backup/restore, database transactions, virtualization and rich media, the improved I/O performance enables faster storage and retrieval of data.
- Amazing Fiber Channel HBAs for virtualization
Ideal for the implementation of virtual servers with the power to drive multiple virtual machines. Allows a single port to acquire multiple N port IDs, eliminating the need for additional physical ports. Datacenter administrators do not need to concern themselves with multiple requests from the virtualized servers potentially creating conflict. Improves host utilization and enhances application performance.