Deploying the SG-9500
6-4
SG-9500 Hardware Guide
PORT
STAND ALONE USAGE
HIGH AVAILABILITY USAGE
P1-L2 (10G)
Ext2 (Connected to Bypass or
Steering)
Ext1 Cloned (Connected to second SG-9700)
P2-L1 (10G)
Int3 (Connected to Bypass)
Int2 (Connected to Bypass)
P5-L2 (10G)
Ext3 (Connected to Bypass)
Ext2 (Connected to Bypass)
P4.L1 (10G)
Int5 (Connected to Bypass or
Steering)
Int3 (Connected to Bypass or Steering)
P4.L2 (10G)
Ext5 (Connected to Bypass or
Steering)
Ext3 (Connected to Bypass or Steering)
P4.L3 (10G)
Int6 (Connected to Bypass or
Steering)
Int3 Cloned (Connected to second SG-9500)
P4.L4 (10G)
Ext6 (Connected to Bypass or
Steering)
Ext3 Cloned (Connected to second SG-9500)
P2.L2 (100G)
Int4 (Connected to Bypass)
Ext2 Cloned (Connected to second SG-9500)
P5.L1 (100G)
Ext4 (Connected to Bypass)
Int2 Cloned (Connected to second SG-9500)
6.2
Powering Up the SG-9500
NOTE It is recommended to connect the two power line feeds to separate power
sources to have full power redundancy.
1.
Press the Power On/Standby button. The Power LED will flash green during
the boot up process and then become steady green when the system is
ready.
2.
During the initial boot it is possible
to modify the server configuration
ROM default settings, press the
F9
key in the POST screen to enter the
UEFI System Utilities screen. By default, the System Utilities menus are in
the English language.
6.3
Initial Configuration
The iLO System
The iLO system is a standard component of the SG-9500 that simplifies initial server
setup, server health monitoring, power and thermal optimization, and remote server
administration. The iLO subsystem includes an intelligent microprocessor, secure
memory, and a dedicated network interface. This design makes iLO independent of
the host server and its operating system.
iLO enables and manages the Active Health System and also features Agentless
Management. All key internal subsystems are monitored by iLO. If enabled, SNMP