FW 05.01.00 and SW 07.01.00 HP StorageWorks SAN High Availability Planning Guide (AA-RS2DC-TE, June 2003)
Planning Considerations for Fibre Channel Topologies
101SAN High Availability Planning Guide
Figure 42: Device locality
Although it is possible to design a SAN that delivers sufficient ISL bandwidth in a
zero-locality environment, it is preferable to design local, one-to-one connectivity
for heavy-bandwidth applications such as video server, seismic data processing, or
medical 3D imaging.
When designing a core-to-edge fabric, servers and storage devices that support
such bandwidth-intensive applications should be attached to core directors as Tier
1 devices. As a best practices policy (assuming 1.0625 Gbps ISLs), devices that
generate a sustained output of 35 MBps or higher are candidates for Tier 1
connectivity. IBM FICON devices also must use Tier 1 connectivity. For
additional information, refer to “FCP and FICON in a Single Fabric” on page 108.
Device Fan-Out Ratio
The output of most host devices is bursty in nature; most devices do not sustain
full-bandwidth output, and it is uncommon for the output of multiple devices to
peak simultaneously. These variations are why multiple hosts can be serviced by a
single storage port. This device sharing leads to the concept of fan-out ratio.
Device fan-out ratio is defined as the storage or array port IOPS divided by the
attached host IOPS, rounded down to the nearest whole number. A more
simplistic definition for device fan out is the ratio of host ports to a single storage
port. Fan-out ratios are typically device dependent. In general, the maximum
device fan-out ratio supported is 12 to 1. Figure 43 illustrates a fan-out ratio of 10
to 1.
A
B
T
M
T
M
High Device Locality
T
M
T
M
Low Device Locality
ISL
ISL
Low Traffic
High Traffic