Cisco Nexus B22 Blade Fabric Extender for HP - Expansion module - 10GbE, FCoE - 16 ports + 8 x SFP+ (uplink) - refurbished - with 16 x Cisco 10G Line Extender for FEX (FET-10G)
- Highly scalable, consistent server access
- Simplified operations
- Increased business benefits
The Cisco Nexus B22 series Blade Fabric Extenders are designed to simplify data center server access architecture and operations in environments in which third-party blade servers are used. The Cisco Nexus B22 series, together with the Cisco Nexus 2000 series Fabric Extenders, Cisco Adapter Fabric Extender (Adapter- FEX), and Cisco Data Center Virtual Machine Fabric Extender (VM-FEX), is part of the Cisco Fabric Extender (FEX) portfolio, which provides a highly scalable unified server access platform supporting 100 megabit to 10 Gigabit Ethernet over both fiber and copper, rack or blade form factors, and data center bridging protocols. The platform offers the ideal support for the integration of third-party blade chassis into a Cisco Unified Fabric.
The Cisco Nexus B22 series Blade Fabric Extenders behave like remote line cards for a parent Cisco Nexus switch, together forming a distributed modular system. This architecture simplifies data center access operations and architecture by combining the management simplicity of a single high-density access switch with the cabling simplicity of integrated blade switches and top-of-rack (ToR) access switches.
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Highly scalable, consistent server access
Distributed modular system creates a scalable server access environment with no reliance on Spanning-Tree Protocol, providing consistency between blade and rack servers.
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Simplified operations
One single point of management and policy enforcement using upstream Cisco Nexus switches eases the commissioning and decommissioning of blades through zero-touch installation and automatic configuration of fabric extenders.
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Increased business benefits
Consolidation, cabling reduction, investment protection through feature inheritance from the parent switch, and the capability to add functions without the need for a major equipment upgrade of server-attached infrastructure all contribute to reduced operating expenses (OpEx) and capital expenditures (CapEx).
