Owners Manual
Table Of Contents
- About Your System
- Accessing System Features during Startup
- Front-Panel Features and Indicators
- Hard-Drive Indicator Patterns
- Service Tag
- Back Panel Features and Indicators
- System-Board Assembly Configurations
- LAN Indicator Codes
- Power and System Board Indicator Codes
- Power Supply Indicator Codes
- BMC Heart Beat LED
- Post Error Code
- System Event Log
- Sensor Data Record
- Other Information You May Need
- Using the System Setup Program
- Removing and Installing System Components
- Safety Instructions
- Recommended Tools
- Opening and Closing the System
- Inside the System
- Cooling Fans
- Hard Drives
- Removing a 3.5-inch Hard-Drive Blank
- Installing a 3.5-inch Hard-Drive Blank
- Removing a 2.5-inch Hard-Drive Blank
- Installing a 2.5-inch Hard-Drive Blank
- Removing a Hard-Drive Carrier
- Installing a Hard-Drive Carrier
- Removing a Hard Drive from a Hard-Drive Carrier
- Installing a Hard Drive into a Hard-Drive Carrier
- Installing a 2.5” SSD into a 3.5” Hard-Drive Carrier
- Power Supplies
- System-Board Assembly
- Air Baffle
- Heat Sinks
- Processors
- Interposer Extender for 2U Node
- Expansion-Card Assembly and Expansion Card
- PCI-E Slot Priority
- RAID Card
- LSI 9265-8i Card
- LSI 9265-8i RAID Battery
- Riser Card
- Optional Mezzanine Cards
- Removing the LSI 2008 SAS Mezzanine Card
- Installing the LSI 2008 SAS Mezzanine Card
- Cable Routing for LSI 2008 SAS Mezzanine Card (1U Node)
- Cable Routing for LSI 2008 SAS Mezzanine Card (2U Node)
- Removing the 1GbE Mezzanine Card
- Installing the 1GbE Mezzanine Card
- Removing the 10GbE Mezzanine Card
- Installing the 10GbE Mezzanine Card
- Mezzanine-Card Bridge Board
- System Memory
- System Battery
- System Board
- Power Distribution Boards
- Middle Planes
- Direct Backplanes
- 2.5-inch Hard Drive Expander Configuration
- Front Panels
- Sensor Boards
- Removing the Sensor Board for 3.5” Hard-Drive System
- Installing the Sensor Board for 3.5” Hard-Drive System
- Cable Routing for Sensor Board and Front Panel for 3.5” Hard Drive System
- Removing the Sensor Board for 2.5” Hard-Drive System
- Installing the Sensor Board for 2.5” Hard-Drive System
- Cable Routing for Sensor Board and Front Panel for 2.5” Hard Drive System
- Troubleshooting Your System
- Minimum Configuration to POST
- Safety First – For You and Your System
- Installation Problems
- Troubleshooting System Startup Failure
- Troubleshooting External Connections
- Troubleshooting the Video Subsystem
- Troubleshooting a USB Device
- Troubleshooting a Serial I/O Device
- Troubleshooting a NIC
- Troubleshooting a Wet System
- Troubleshooting a Damaged System
- Troubleshooting the System Battery
- Troubleshooting Power Supplies
- Troubleshooting System Cooling Problems
- Troubleshooting a Fan
- Troubleshooting System Memory
- Troubleshooting a Hard Drive
- Troubleshooting a Storage Controller
- Troubleshooting Expansion Cards
- Troubleshooting Processors
- IRQ Assignment Conflicts
- Jumpers and Connectors
- C6220 II System Board Connectors
- C6220 System Board Connectors
- Backplane Connectors
- Middle Plane Connectors
- Interposer Extender for 2U Node Connectors
- LSI 2008 SAS Mezzanine Card Connectors
- 1GbE Mezzanine Card Connectors
- 10GbE Mezzanine Card Connectors
- Power Distribution Board 1 Connectors
- Power Distribution Board 2 Connectors
- Sensor Board Connectors
- Jumper Settings
- Getting Help
- Index
Using the System Setup Program | 79
Option
Description
Required Power Supplies
This is the number of power supplied that is
required to run the servers in the chassis.
(The default is referring from FCB F/W thru BMC
by IPMI command)
Redundant Power
Supplies
This is the number of power supplied that is
redundant. (The default is referring from BMC)
Power Capping
1. Enter the server BIOS setup screen.
2. Enter Advanced/Power Management/Chassis Power
Management/ Power Capping, and the following options are for
Chassis PSU Configuration functions:
• Power Budget –
This is the power budget available. It is the summary of
each PSU’s capacity. (i.e. based on the number of PSUs and
the max capacity of each PSU) The max capacity of each
PSU is 1100 Watt or 1400Watt supportable. Therefore
Power Budget will not exceed 2660 Watt in this system.
(1400 * 2(max number of PSUs in chassis) * 0.95 = 2660
Watt)
• Chassis Level Capping -
Sets as chassis level or sled Level power capping. System
determines power consumption of the chassis and power
consumption of the sleds, and constantly attempts to
maintain the chassis’s power consumption below the cap.
• Chassis Power Capping -
Determines the power consumption of the chassis. The
maximum value will not be over than the wattage of Power
Budget, and the minimum is 1500.
• Sled Power Capping -
Determines the power consumption of the sled. (<0>
means to disable Power Capping Function.) The maximum
value is 1000, and the minimum is 100 if the Power Capping
Function is enabled.