FW V06.XX/HAFM SW V08.02.00 HP StorageWorks SAN High Availability Planning Guide (AA-RS2DD-TE, July 2004)
Table Of Contents
- SAN HA Planning Guide
- Contents
- About this Guide
- Introduction to HP Fibre Channel Products
- Product Management
- Planning Considerations for Fibre Channel Topologies
- Fibre Channel Topologies
- Planning for Point-to-Point Connectivity
- Characteristics of Arbitrated Loop Operation
- Planning for Private Arbitrated Loop Connectivity
- Planning for Fabric-Attached Loop Connectivity
- Planning for Multi-Switch Fabric Support
- Fabric Topologies
- Planning a Fibre Channel Fabric Topology
- Fabric Topology Design Considerations
- FICON Cascading
- Physical Planning Considerations
- Port Connectivity and Fiber-Optic Cabling
- HAFM Appliance, LAN, and Remote Access Support
- Inband Management Access (Optional)
- Security Provisions
- Optional Features
- Configuration Planning Tasks
- Task 1: Prepare a Site Plan
- Task 2: Plan Fibre Channel Cable Routing
- Task 3: Consider Interoperability with Fabric Elements and End Devices
- Task 4: Plan Console Management Support
- Task 5: Plan Ethernet Access
- Task 6: Plan Network Addresses
- Task 7: Plan SNMP Support (Optional)
- Task 8: Plan E-Mail Notification (Optional)
- Task 9: Establish Product and HAFM Appliance Security Measures
- Task 10: Plan Phone Connections
- Task 11: Diagram the Planned Configuration
- Task 12: Assign Port Names and Nicknames
- Task 13: Complete the Planning Worksheet
- Task 14: Plan AC Power
- Task 15: Plan a Multi-Switch Fabric (Optional)
- Task 16: Plan Zone Sets for Multiple Products (Optional)
- Index
Planning Considerations for Fibre Channel Topologies
60 SAN High Availability Planning Guide
Fibre Channel Topologies
The Director 2/64, Director 2/140, Edge Switch 2/12, Edge Switch 2/16, Edge
Switch 2/24, and Edge Switch 2/32 support point-to-point and multi-switch fabric
topologies. The Edge Switch 2/12 and Edge Switch 2/24 indirectly support
arbitrated loop topology. A combination of these topologies (hybrid topology) is
also supported.
Related HP switches support switched mode and traditional (shared mode)
arbitrated loop topologies and indirectly support a switched fabric topology.
These topologies are described as follows:
■ Point-to-point — This topology provides a single direct connection between
two device node ports (N_Ports) and supports bidirectional transmission
between the source and destination ports. Through dynamic switching, a
director or edge switch configures different point-to-point transmission paths.
In all cases, connected N_Ports use 100% of the available bandwidth. For
additional information, refer to “Planning for Point-to-Point Connectivity” on
page 62.
■ Arbitrated loop — This topology uses arbitrated loop switches (offered by
HP but not described in this publication) to connect multiple device node loop
ports (NL_Ports) in an FC-AL or hub configuration without benefit of a
multiswitch fabric. The following modes of operation are supported:
— Switched mode topology provides a single, logical connection between
two device NL_Ports. The switch dynamically configures different
logical transmission paths, and in all cases connected NL_Ports have
access to 100% of the available bandwidth.
— Shared mode arbitrated loop topology connects multiple device NL_Ports
in a hub (or star) configuration without benefit of a switched fabric. The
switch supports connection of up to 125 arbitrated loop devices and
cascaded hubs.
Although directors and edge switches do not support direct connection of
arbitrated loop devices, the loop devices can communicate with fabric
elements through an arbitrated loop switch bridge port (B_Port). If peripheral
loop devices are expected to communicate with fabric-attached devices,
consider installation of a loop switch (with a director or edge switch) to form
a fabric-loop hybrid topology. For additional information, refer to
“Characteristics of Arbitrated Loop Operation” on page 63, “Planning for
Private Arbitrated Loop Connectivity” on page 69, and “Planning for
Fabric-Attached Loop Connectivity” on page 75.