HP MDS600 HP BladeSystem Deployment Guide for Solutions with 6Gb SAS BL Switch - Page 83

P2000 G3 SAS MSA dual-controller, dual-domain, optimal cabling This example illustrates optimal cabling for a high-performance, high-availability configuration. In this configuration, note the following: • Two cables from each switch to each MSA controller will provide optimal fault tolerance, if a zone group is created that includes all associated switch ports. For example, as shown in the following illustration, create a zone group that includes ports 1 and 2 on both switches. When that zone group is assigned to one or more servers, there will be four possible data paths. Multiple components in the system can fail, but, most likely, I/O will be able continue. • Two cables from each switch to each MSA controller will provide optimal performance, if unique zone groups are created and assigned to different servers. For example, as shown in the following illustration, create one zone group that includes port 1 on each switch. Also create a zone group that includes port 2 on each switch. If zone group1 is assigned to one server and zone group2 is assigned to a different server, because the zone groups use different data paths, performance will be optimized. In this scenario, standard fault tolerance is provided for each zone group. NOTE: Restrictions exist, depending on the controller, storage enclosure, and drive model. For more information, see "External SAS device, controller, drive, and cabling support matrices" (page 77) Devices and quantities P2000 G3 SAS MSA controller enclosures: 1 P2000 drive enclosures: 0 BladeSystem c7000 enclosures: 1 6G SAS BL Switches: 2 Server blade types: half-height and full-height Connection details • Switch in interconnect bay 5: ◦ Port 1: to MSA SAS port A1 ◦ Port 2: to MSA SAS port B1 • Switch in interconnect bay 6: ◦ Port 1: to MSA SAS port B2 ◦ Port 2: to MSA SAS port A2 Illustrated configuration examples 83