1 fc protocols, 2 fc topologies, 3 fibre hubs and switches – Dot Hill Systems II 200 FC User Manual
Page 32: Fc protocols, Fc topologies, Fibre hubs and switches
1-12
SANnet II 200 FC, SATA, and SATA SE Array Installation, Operation, and Service Manual • March 2005
1.4.1
FC Protocols
Two common protocols are used to connect Fibre Channel (FC) nodes together:
■
Point-to-point—The point-to-point protocol is straightforward, doing little more
than establishing a permanent communication link between two ports.
■
Arbitrated loop—The arbitrated loop protocol creates a simple network featuring
distributed (arbitrated) management between two or more ports, using a circular
(loop) data path. Arbitrated loops can support more nodes than point-to-point
connections can.
The FC, SATA, and SATA SE arrays support point-to-point and arbitrated loop
protocols. Select the protocol you prefer by setting the desired Fibre Channel
Connection Option in the Configuration parameters of the firmware application. For
more information, see “Summary of Array Configuration” on page 5-1.
1.4.2
FC Topologies
The presence or lack of switches establishes the topology of an FC environment. In a
direct attached storage (DAS) topology, servers connect directly to arrays without
switches. In a storage area network (SAN) topology, servers and arrays connect to an
FC network created and managed by switches.
Refer to the SANnet II 200 FC and SATA Array Best Practices Manual to see
information about optimal configurations for site requirements.
1.4.3
Fibre Hubs and Switches
A storage network built on a Fibre Channel architecture might employ several of the
following components: Fibre Channel host adapters, hubs, fabric switches, and fibre-
to-SCSI bridges.
■
Fibre hubs
An arbitrated loop hub is a wiring concentrator. “Arbitrated” means that all nodes
communicating over this fibre loop share a 100-megabits-per-second (Mbps)
segment. Whenever more devices are added to a single segment, the bandwidth
available to each node is further reduced.
A loop configuration allows different devices in the loop to be configured in a token
ring style. With a fibre hub, a fibre loop can be rearranged in a star-like
configuration because the hub itself contains port bypass circuitry that forms an
internal loop inside. Bypass circuits can automatically reconfigure the loop once a
device is removed or added without disrupting the physical connection to other
devices.
■
Fabric switches.