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In the computer storage field, a Fibre Channel switch is a network switch compatible with the Fibre Channel (FC) protocol. It allows the creation of a Fibre Channel fabric, that is the core component of a storage area network (SAN). The fabric is a network of Fibre Channel devices which allows many-to-many communication, device name lookup, security, and redundancy. FC switches implement zoning, a mechanism that disables unwanted traffic between certain fabric nodes.
Fibre Channel | |
---|---|
Layer 4. Protocol mapping | |
LUN masking | |
Layer 3. Common services | |
Layer 2. Network | |
Fibre Channel fabric Fibre Channel zoning Registered state change notification | |
Layer 1. Data link | |
Fibre Channel 8b/10b encoding | |
Layer 0. Physical |
Fibre Channel switches may be deployed one at a time or in larger multi-switch configurations. SAN administrators typically add new switches as their server and storage needs grow, connecting switches together via fiber optic cable using the standard device ports. Some switch vendors offer dedicated high-speed stacking ports to handle inter-switch connections (similar to existing stackable Ethernet switches), allowing high-performance multi-switch configurations to be created using fewer switches overall.
Major manufacturers of Fibre Channel switches include Brocade(Broadcom), Cisco Systems, and QLogic(Marvell).
Fibre Channel Director
editA special variety of a FC switch is the Fibre Channel Director, a switch meant to provide backbone infrastructure in a fabric usually featuring at least 128 ports and high-availability attributes, however the term is loose and varies among to manufacturers.[1] It does not differ from a switch in core FC protocol functionality. The director term itself is derived from legacy ESCON Directors such as the IBM 9032-005.
See also
editReferences
edit- ^ "Fibre Channel Directors: Myths, Realities, and Evaluations". 2003-09-18. Retrieved 2019-01-28.