Intel S1400SP4 DBS1400SP4 User Manual
Product codes
DBS1400SP4
Intel® Light Guided Diagnostics
Intel® Server Board S1400SP TPS
Revision 1.0
Intel order number G64248-001
98
Amber
Solid on
Critical, non-
recoverable
recoverable
Fatal alarm – system has failed or shutdown:
1. CPU CATERR signal asserted
2. MSID mismatch detected (CATERR also asserts for this case).
3. CPU 1 is missing
4. CPU ThermalTrip
5. No power good – power fault
6. DIMM failure when there is only 1 DIMM present and hence no
good memory present1.
7. Runtime memory uncorrectable error in non-redundant mode1.
8. DIMM Thermal Trip or equivalent
9. SSB Thermal Trip or equivalent
10. CPU ERR2 signal asserted
11. BMC\Video memory test failed. (Chassis ID shows blue/solid-on
for this condition)
12. Both uBoot BMC FW images are bad. (Chassis ID shows
blue/solid-on for this condition)
13. 240VA fault
1. CPU CATERR signal asserted
2. MSID mismatch detected (CATERR also asserts for this case).
3. CPU 1 is missing
4. CPU ThermalTrip
5. No power good – power fault
6. DIMM failure when there is only 1 DIMM present and hence no
good memory present1.
7. Runtime memory uncorrectable error in non-redundant mode1.
8. DIMM Thermal Trip or equivalent
9. SSB Thermal Trip or equivalent
10. CPU ERR2 signal asserted
11. BMC\Video memory test failed. (Chassis ID shows blue/solid-on
for this condition)
12. Both uBoot BMC FW images are bad. (Chassis ID shows
blue/solid-on for this condition)
13. 240VA fault
Off
N/A
Not ready
AC power off
10.3 BMC Boot/Reset Status LED Indicators
During the BMC boot or BMC reset process, the System Status LED and System ID LED are
used to indicate BMC boot process transitions and states. A BMC boot will occur when AC
power is first applied to the system. A BMC reset will occur after: a BMC FW update, upon
receiving a BMC cold reset command, and upon a BMC watchdog initiated reset. The following
table defines the LED states during the BMC Boot/Reset process.
used to indicate BMC boot process transitions and states. A BMC boot will occur when AC
power is first applied to the system. A BMC reset will occur after: a BMC FW update, upon
receiving a BMC cold reset command, and upon a BMC watchdog initiated reset. The following
table defines the LED states during the BMC Boot/Reset process.
Table 50. BMC Boot/Reset Status LED Indicators
BMC Boot/Reset State
ID LED
Status
LED
Comment
BMC/Video memory test failed
Solid
Blue
Solid
Amber
Non-recoverable condition. Contact your Intel
®
representative for information on replacing this motherboard.
Both Universal Bootloader (u-
Boot) images bad
Boot) images bad
Solid
Blue
Solid
Amber
Non-recoverable condition. Contact your Intel
®
representative for information on replacing this motherboard.
BMC in u-Boot
Blink
Blue
3Hz
Blink
Green
1Hz
Blinking green indicates degraded state (no manageability),
blinking blue indicates u-Boot is running but has not
transferred control to BMC Linux*. Server will be in this state
6-8 seconds after BMC reset while it pulls the Linux* image
into flash.
blinking blue indicates u-Boot is running but has not
transferred control to BMC Linux*. Server will be in this state
6-8 seconds after BMC reset while it pulls the Linux* image
into flash.
BMC Booting Linux*
Solid
Blue
Solid
Green
Solid green with solid blue after an AC cycle/BMC reset,
indicates that the control has been passed from u-Boot to
BMC Linux* itself. It will be in this state for ~10-~20
seconds.
indicates that the control has been passed from u-Boot to
BMC Linux* itself. It will be in this state for ~10-~20
seconds.
End of BMC boot/reset process.
Normal system operation
Normal system operation
Off
Solid
Green
Indicates BMC Linux* has booted and manageability
functionality is up and running. Fault/Status LEDs operate
as per usual.
functionality is up and running. Fault/Status LEDs operate
as per usual.
10.4 Post Code Diagnostic LEDs
A bank of eight POST code diagnostic LEDs are located on the back edge of the server next to
the stacked USB connectors. During the system boot process, the BIOS executes a number of
platform configuration processes, each of which is assigned a specific hex POST code number.
As each configuration routine is started, the BIOS displays the given POST code to the POST
code diagnostic LEDs. The purpose of these LEDs is to assist in troubleshooting a system hang
the stacked USB connectors. During the system boot process, the BIOS executes a number of
platform configuration processes, each of which is assigned a specific hex POST code number.
As each configuration routine is started, the BIOS displays the given POST code to the POST
code diagnostic LEDs. The purpose of these LEDs is to assist in troubleshooting a system hang