Environmental Monitoring and Reporting Functions
Monitoring and reporting functions allow you to maintain normal system operation by identifying and resolving adverse conditions prior to loss of operation.
Environmental Monitoring Functions
Environmental monitoring functions use sensors to monitor the temperature of the cooling air as it moves through the chassis.
The local power supplies provide the ability to monitor:
-
Input and output current
-
Output voltage
-
Input and output power
-
Temperature
-
Fan speed
The router is expected to meet the following environmental operating conditions:
-
Operating Temperature Nominal—32°F to 104°F (0°C to 40°C)
-
Operating Humidity Nominal—10% to 85% RH noncondensing
-
Operating Humidity Short Term—10% to 85% RH noncondensing
-
Operating Altitude—Sea level 0 ft to 10,000 ft (0 to 3000 m)
-
AC Input Range—85 to 264 VAC
In addition, each power supply monitors its internal temperature and voltage. A power supply is either within tolerance (normal) or out of tolerance (critical). If an internal power supply's temperature or voltage reaches a critical level, the power supply shuts down without any interaction with the system processor.
The following table displays the levels of status conditions used by the environmental monitoring system.
|
Status Level |
Description |
|---|---|
|
Normal |
All monitored parameters are within normal tolerance. |
|
Warning |
The system has exceeded a specified threshold. The system continues to operate, but operator action is recommended to bring the system back to a normal state. |
|
Critical |
An out-of-tolerance temperature or voltage condition exists. Although the system continues to operate, it is approaching shutdown. Immediate operator action is required. |
The environmental monitoring system sends system messages to the console, for example, when the conditions described here are met:
Fan Failure
When the system power is on, all the fans should be operational. Although the system continues to operate if a fan fails, the system displays the following message:
%IOSXE_PEM-3-FANFAIL: The fan in slot 2/0 is encountering a failure conditionSensors Out of Range
When sensors are out of range, the system displays the following message:
%ENVIRONMENTAL-1-ALERT: V: 1.0v PCH, Location: R0, State: Warning, Reading: 1102 mV
%ENVIRONMENTAL-1-ALERT: V: PEM Out, Location: P1, State: Warning, Reading: 0 mV
%ENVIRONMENTAL-1-ALERT: Temp: Temp 3, Location R0, State : Warning, Reading : 90CFan Tray (Slot P2) Removed
When the fan tray for slot P2 is removed, the system displays the following message:
%IOSXE_PEM-6-REMPEM_FM: PEM/FM slot P2 removed
Fan Tray (Slot P2) Reinserted
When the fan tray for slot P2 is reinserted, the system displays the following message:
%IOSXE_PEM-6-INSPEM_FM: PEM/FM slot P2 inserted
Fan Tray (Slot 2) is Working Properly
When the fan tray for slot 2 is functioning properly, the system displays the following message:
%IOSXE_PEM-6-PEMOK: The PEM in slot P2 is functioning properly
Fan 0 in Slot 2 (Fan Tray) is Not Working
When Fan 0 in the fan tray of slot 2 is not functioning properly, the system displays the following message:
%IOSXE_PEM-3-FANFAIL: The fan in slot 2/0 is encountering a failure condition
Fan 0 in Slot 2 (Fan Tray) is Working Properly
When Fan 0 in the fan tray of slot 2 is functioning properly, the system displays the following message:
%IOSXE_PEM-6-FANOK: The fan in slot 2/0 is functioning properly
Main Power Supply in Slot 1 is Powered Off
When the main power supply in slot 1 is powered off, the system displays the following message:
%IOSXE_PEM-3-PEMFAIL: The PEM in slot 1 is switched off or encountering a
failure condition.
Main Power Supply is Inserted in Slot 1
When the main power supply is inserted in slot 1, the system displays the following messages:
%IOSXE_PEM-6-INSPEM_FM: PEM/FM slot P1 inserted
%IOSXE_PEM-6-PEMOK: The PEM in slot 1 is functioning properly
Temperature and Voltage Exceed Max/Min Thresholds
The following example shows the warning messages indicating the maximum and minimum thresholds of the temperature or voltage:
Warnings :
--------
For all the temperature sensors (name starting with “Temp:”) above,
the critical warning threshold is 100C (100C and higher)
the warning threshold is 80C (range from 80C to 99C)
the low warning threshold is 1C (range from -inf to 1C).
For all voltage sensors (names starting with "V:"),
the high warning threshold starts at that voltage +10%. (voltage + 10% is warning)
the low warning threshold starts at the voltage -10%. (voltage - 10% is warning)
Environmental Reporting Functions
You can retrieve and display environmental status reports using the following commands:
-
debug environment
-
debug platform software cman env monitor polling
-
debug ilpower
-
debug power [inline | main]
-
show diag all eeprom
-
show diag slot R0 eeprom detail
-
show environment
-
show environment all
-
show inventory
-
show platform all
-
show platform diag
-
show platform software status control-processor
-
show version
-
show power
-
show power inline
These commands show the current values of parameters such as temperature and voltage.
The environmental monitoring system updates the values of these parameters every 60 seconds. Brief examples of these commands are shown below:
debug environment: Example
Router# debug environment location P0
Environmental sensor Temp: Temp 1 P0 debugging is on
Environmental sensor Temp: Temp 2 P0 debugging is on
Environmental sensor Temp: Temp 3 P0 debugging is on
Environmental sensor V: PEM Out P0 debugging is on
Environmental sensor I: PEM In P0 debugging is on
Environmental sensor I: PEM Out P0 debugging is on
Environmental sensor W: In pwr P0 debugging is on
Environmental sensor W: Out pwr P0 debugging is on
Environmental sensor RPM: fan0 P0 debugging is on
*Sep 12 00:45:13.956: Sensor: Temp: Temp 1 P0, In queue 1
*Sep 12 00:45:13.956: State=Normal Reading=29
*Sep 12 00:45:13.956: Rotation count=0 Poll period=60000
*Sep 12 00:45:13.956: Sensor: Temp: Temp 1 P0 State=Normal Reading=29
*Sep 12 00:45:13.956: Inserting into queue 1 on spoke 173.
*Sep 12 00:45:13.956: Rotation count=60 Displacement=0
*Sep 12 00:45:13.956: Sensor: Temp: Temp 2 P0, In queue 1
*Sep 12 00:45:13.956: State=Normal Reading=33
*Sep 12 00:45:13.956: Rotation count=0 Poll period=60000
*Sep 12 00:45:13.956: Sensor: Temp: Temp 2 P0 State=Normal Reading=34
*Sep 12 00:45:13.956: Inserting into queue 1 on spoke 173.
*Sep 12 00:45:13.956: Rotation count=60 Displacement=0
*Sep 12 00:45:13.956: Sensor: Temp: Temp 3 P0, In queue 1
*Sep 12 00:45:13.956: State=Normal Reading=34
*Sep 12 00:45:13.956: Rotation count=0 Poll period=60000
*Sep 12 00:45:13.956: Sensor: Temp: Temp 3 P0 State=Normal Reading=35
*Sep 12 00:45:13.956: Inserting into queue 1 on spoke 173.
*Sep 12 00:45:13.956: Rotation count=60 Displacement=0
*Sep 12 00:45:13.956: Sensor: V: PEM Out P0, In queue 1
*Sep 12 00:45:13.956: State=Normal Reading=12709
*Sep 12 00:45:13.956: Rotation count=0 Poll period=60000
*Sep 12 00:45:13.956: Sensor: V: PEM Out P0 State=Normal Reading=12724
*Sep 12 00:45:13.956: Inserting into queue 1 on spoke 173.
*Sep 12 00:45:13.956: Rotation count=60 Displacement=0
*Sep 12 00:45:13.956: Sensor: I: PEM In P0, In queue 1
*Sep 12 00:45:13.956: State=Normal Reading=1
*Sep 12 00:45:13.956: Rotation count=0 Poll period=60000
*Sep 12 00:45:13.956: Sensor: I: PEM In P0 State=Normal Reading=1
*Sep 12 00:45:13.956: Inserting into queue 1 on spoke 173.
*Sep 12 00:45:13.956: Rotation count=60 Displacement=0
*Sep 12 00:45:13.956: Sensor: I: PEM Out P0, In queue 1
*Sep 12 00:45:13.956: State=Normal Reading=4
*Sep 12 00:45:13.956: Rotation count=0 Poll period=60000
*Sep 12 00:45:13.956: Sensor: I: PEM Out P0 State=Normal Reading=4
*Sep 12 00:45:13.956: Inserting into queue 1 on spoke 173.
*Sep 12 00:45:13.956: Rotation count=60 Displacement=0
*Sep 12 00:45:13.956: Sensor: W: In pwr P0, In queue 1
*Sep 12 00:45:13.956: State=Normal Reading=92
*Sep 12 00:45:13.956: Rotation count=0 Poll period=60000
*Sep 12 00:45:13.956: Sensor: W: In pwr P0 State=Normal Reading=92
*Sep 12 00:45:13.956: Inserting into queue 1 on spoke 173.
*Sep 12 00:45:13.956: Rotation count=60 Displacement=0
*Sep 12 00:45:13.956: Sensor: W: Out pwr P0, In queue 1
*Sep 12 00:45:13.956: State=Normal Reading=46
*Sep 12 00:45:13.956: Rotation count=0 Poll period=60000
*Sep 12 00:45:13.956: Sensor: W: Out pwr P0 State=Normal Reading=46
*Sep 12 00:45:13.956: Inserting into queue 1 on spoke 173.
*Sep 12 00:45:13.956: Rotation count=60 Displacement=0
*Sep 12 00:45:13.956: Sensor: RPM: fan0 P0, In queue 1
*Sep 12 00:45:13.956: State=Normal Reading=3192
*Sep 12 00:45:13.956: Rotation count=0 Poll period=60000
*Sep 12 00:45:13.956: Sensor: RPM: fan0 P0 State=Normal Reading=3180
*Sep 12 00:45:13.956: Inserting into queue 1 on spoke 173.
*Sep 12 00:45:13.956: Rotation count=60 Displacement=0debug platform software cman env monitor polling: Example
Router# debug platform software cman env monitor polling
platform software cman env monitor polling debugging is on
Router#
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback Temp: Temp 1, P0, 29
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback Temp: Temp 2, P0, 34
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback Temp: Temp 3, P0, 35
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback V: PEM Out, P0, 12709
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback I: PEM In, P0, 1
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback I: PEM Out, P0, 4
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback W: In pwr, P0, 93
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback W: Out pwr, P0, 48
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback RPM: fan0, P0, 3192
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback Temp: Temp 1, P1, 33
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback Temp: Temp 2, P1, 32
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback Temp: Temp 3, P1, 36
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback V: PEM Out, P1, 12666
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback I: PEM In, P1, 1
*Sep 12 00:46:13.962: IOS-RP-ENVMON: sensor READ callback I: PEM Out, P1, 4
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback W: In pwr, P1, 55
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback W: Out pwr, P1, 46
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback RPM: fan0, P1, 2892
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback RPM: fan0, P2, 4894
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback RPM: fan1, P2, 4790
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback RPM: fan2, P2, 5025
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback RPM: fan3, P2, 5001
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback W: fan pwr, P2, 8
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback Temp: Inlet 1, R0, 25
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback Temp: Inlet 2, R0, 28
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback Temp: Outlet 1, R0, 30
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback Temp: Outlet 2, R0, 35
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 12v, R0, 12735
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 5v, R0, 5125
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 3.3v, R0, 3352
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 1.05v, R0, 1052
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 2.5v, R0, 0
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 1.8v, R0, 0
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 1.2v, R0, 0
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 1.15v, R0, 0
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 1.1v, R0, 0
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 1.0v, R0, 0
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 1.8v PCH, R0, 1787
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 1.5v PCH, R0, 1516
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 1.5v CPUC, R0, 1526
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 1.5v CPUI, R0, 1529
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 1.0v PCH, R0, 1009
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 1.5v QLM, R0, 0
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: VCore, R0, 0
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: VTT, R0, 0
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 0.75v CPUI, R0, 0
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback V: 0.75v CPUC, R0, 0
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback I: 12v, R0, 7
*Sep 12 00:46:13.963: IOS-RP-ENVMON: sensor READ callback W: pwr, R0, 81
debug ilpower: Example
Router# debug ilpower ?
cdp ILPOWER CDP messages
controller ILPOWER controller
event ILPOWER event
ha ILPOWER High-Availability
port ILPOWER port management
powerman ILPOWER powerman
registries ILPOWER registries
scp ILPOWER SCP messages
upoe ILPOWER upoedebug power [inline|main]: Example
In this example, there is one 1000W power supply and one 450W power supply. Inline and main power output is shown.
Router# debug power ?
inline ILPM inline power related
main Main power related
<cr> <cr>
Router# debug power
POWER all debug debugging is on
Router# show debugging | include POWER
POWER:
POWER main debugging is on
POWER inline debugging is on
Router#
..
*Jan 21 01:29:40.786: %ENVIRONMENTAL-6-NOTICE: V: PEM Out, Location: P1, State: Warning, Reading: 0 mV
*Jan 21 01:29:43.968: %IOSXE_PEM-6-PEMOK: The PEM in slot P1 is functioning properly
*Jan 21 01:29:43.968: %PLATFORM_POWER-6-MODEMATCH: Main power is in Boost mode
*Jan 21 01:29:43.968: Power M: Received Msg for 12V/Main, total power 1450, Run same as cfg Yes
*Jan 21 01:29:43.968: Power M: Received Msg for POE/ILPM, total power 500, Run same as cfg No
*Jan 21 01:29:43.968: Power I: Updating pool power is 500 watts
*Jan 21 01:29:43.968: Power I: Intimating modules of total power 500 watts
*Jan 21 01:29:46.488: Power M: Received Msg for 12V/Main, total power 1450, Run same as cfg Yes
*Jan 21 01:29:46.488: Power M: Received Msg for POE/ILPM, total power 500, Run same as cfg No
*Jan 21 01:29:46.488: Power I: Updating pool power is 500 watts
*Jan 21 01:29:46.488: Power I: Intimating modules of total power 500 watts
Router#show diag all eeprom: Example
Router# show diag all eepromMIDPLANE EEPROM data:
Product Identifier (PID) : C1100TG-1N24P32A
Version Identifier (VID) : V01
PCB Serial Number : PSZ23461DXT
Hardware Revision : 1.0
CLEI Code : TBD
Slot R0 EEPROM data:
Product Identifier (PID) : C1100TG-1N24P32A
Version Identifier (VID) : V01
PCB Serial Number : PSZ23461DXT
Hardware Revision : 1.0
CLEI Code : TBD
Slot F0 EEPROM data:
Product Identifier (PID) : C1100TG-1N24P32A
Version Identifier (VID) : V01
PCB Serial Number : PSZ23461DXT
Hardware Revision : 1.0
CLEI Code : TBD
Slot 0 EEPROM data:
Product Identifier (PID) : C1100TG-1N24P32A
Version Identifier (VID) : V01
PCB Serial Number : PSZ23461DXT
Hardware Revision : 1.0
CLEI Code : TBD
SPA EEPROM data for subslot 0/0:
Product Identifier (PID) : C1100TG-2x1GE
Version Identifier (VID) : V01
PCB Serial Number :
Top Assy. Part Number : 68-2236-01
Top Assy. Revision : A0
Hardware Revision : 2.2
CLEI Code : CNUIAHSAAA
SPA EEPROM data for subslot 0/1:
Product Identifier (PID) : C1100TG-A-48
Version Identifier (VID) : V01
PCB Serial Number :
Top Assy. Part Number : 68-2236-01
Top Assy. Revision : A0
Hardware Revision : 2.2
CLEI Code : CNUIAHSAAA
SPA EEPROM data for subslot 0/2:
Product Identifier (PID) : C1100TG-ES-24
Version Identifier (VID) : V01
PCB Serial Number :
Top Assy. Part Number : 68-2236-01
Top Assy. Revision : A0
Hardware Revision : 2.2
CLEI Code : CNUIAHSAAA
SPA EEPROM data for subslot 0/3:
Product Identifier (PID) : NIM-16A
Version Identifier (VID) : V02
PCB Serial Number : DNI230206GP
Hardware Revision : 1.0
CLEI Code : IPUCBNSBAB
SPA EEPROM data for subslot 0/4 is not available
SPA EEPROM data for subslot 0/5 is not available
show environment: Example
In this example, note the output for the slots POE0 and POE1.
Router# show environment
Number of Critical alarms: 0
Number of Major alarms: 0
Number of Minor alarms: 0
Slot Sensor Current State Reading
---- ------ ------------- -------
P0 Temp: Temp 1 Normal 28 Celsius
P0 Temp: Temp 2 Normal 43 Celsius
P0 Temp: Temp 3 Normal 44 Celsius
P0 V: PEM Out Normal 12404 mV
P0 I: PEM In Normal 1 A
P0 I: PEM Out Normal 7 A
P0 P: In pwr Normal 106 Watts
P0 P: Out pwr Normal 87 Watts
P0 RPM: fan0 Normal 2952 RPM
P2 RPM: fan0 Normal 4421 RPM
P2 RPM: fan1 Normal 4394 RPM
P2 RPM: fan2 Normal 4433 RPM
P2 RPM: fan3 Normal 4410 RPM
P2 P: pwr Normal 6 Watts
POE0 Temp: Temp 1 Normal 44 Celsius
POE0 I: 12v In Normal 2 A
POE0 V: 12v In Normal 12473 mV
POE0 P: In pwr Normal 25 Watts
POE1 Temp: Temp 1 Normal 40 Celsius
POE1 I: 12v In Normal 2 mA
POE1 V: 12v In Normal 12473 mV
POE1 P: In pwr Normal 20 Watts
R0 Temp: Inlet 1 Normal 24 Celsius
R0 Temp: Inlet 2 Normal 26 Celsius
R0 Temp: Outlet 1 Normal 33 Celsius
R0 Temp: Outlet 2 Normal 32 Celsius
R0 Temp: core-B Normal 43 Celsius
R0 Temp: core-C Normal 38 Celsius
R0 V: 12v Normal 12355 mV
R0 V: 5v Normal 5090 mV
R0 V: 3.3v Normal 3331 mV
R0 V: 3.0v Normal 2998 mV
R0 V: 2.5v Normal 2436 mV
R0 V: 1.05v Normal 1049 mV
R0 V: 1.8v Normal 1798 mV
R0 V: 1.2v Normal 1234 mV
R0 V: Vcore-C Normal 1155 mV
R0 V: 1.1v Normal 1104 mV
R0 V: 1.0v Normal 1012 mV
R0 V: 1.8v-A Normal 1782 mV
R0 V: 1.5v-A Normal 1505 mV
R0 V: 1.5v-C1 Normal 1516 mV
R0 V: 1.5v-B Normal 1511 mV
R0 V: Vcore-A Normal 1099 mV
R0 V: 1.5v-C2 Normal 1492 mV
R0 V: Vcore-B1 Normal 891 mV
R0 V: Vcore-B2 Normal 904 mV
R0 V: 0.75v-B Normal 754 mV
R0 V: 0.75v-C Normal 759 mV
R0 I: 12v Normal 8 A
R0 P: pwr Normal 86 Watts
0/1 P: pwr Normal 5 Watts
P1 Temp: Temp 1 Normal 30 Celsius
P1 Temp: Temp 2 Normal 38 Celsius
P1 Temp: Temp 3 Normal 39 Celsius
P1 V: PEM Out Normal 12404 mV
P1 I: PEM In Normal 1 A
P1 I: PEM Out Normal 6 A
P1 P: In pwr Normal 86 Watts
P1 P: Out pwr Normal 68 Watts
P1 RPM: fan0 Normal 2940 RPM
show environment all: Example
Router# show environment all
Sensor List: Environmental Monitoring
Sensor Location State Reading
RPM: fan1 P2 Normal 6660 RPM
RPM: fan2 P2 Normal 6600 RPM
RPM: fan3 P2 Normal 6600 RPM
Temp: Inlet 1 R0 Normal 26 Celsius
Temp: Outlet 1 R0 Normal 32 Celsius
Temp: CPU R0 Normal 35 Celsius
V: 12v R0 Normal 11763 mV
V: 5v R0 Normal 5058 mV
V: 3.3v_MCU R0 Normal 3356 mV
V: 3.3v_STBY R0 Normal 3303 mV
V: 2.5v R0 Normal 2493 mV
V: 1.8v_STBY R0 Normal 1808 mV
V: 1.8v_FPGA R0 Normal 1795 mV
V: 1.24v R0 Normal 1246 mV
V: 1.2v_VDDQ R0 Normal 1211 mV
V: 1.2v_MGT R0 Normal 1196 mV
V: 1.2v_DB R0 Normal 1208 mV
V: 1.05v R0 Normal 1046 mV
V: 1.02v_ETH R0 Normal 1026 mV
V: 1.0v_PVNN R0 Normal 831 mV
V: 1.0v_PVCC R0 Normal 994 mV
V: 1.0v_PVCCP R0 Normal 998 mV
V: 1.0v_FPGA R0 Normal 997 mV
V: 1.0v_MGT R0 Normal 1010 mV
V: 1.0v_DB R0 Normal 1007 mV
V: 0.6v R0 Normal 605 mV
show inventory: Example
Router# show inventory
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
INFO: Please use "show license UDI" to get serial number for licensing.
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
NAME: "Chassis", DESCR: "Cisco C1100TG-1N24P32A terminal server"
PID: C1100TG-1N24P32A , VID: V01 , SN: PSZ23461E0E
NAME: "Fan Tray", DESCR: "Cisco C1100TG-1N24P32A, C1100TGX-1N24P32A Fan Assembly"
PID: C1100TG-FANASSY2 , VID: , SN:
NAME: "module 0", DESCR: "Cisco C1100TG-1N24P32A Built-In NIM controller"
PID: C1100TG-1N24P32A , VID: , SN:
NAME: "NIM subslot 0/1", DESCR: "48 ports Async Lite Serial"
PID: C1100TG-A-48 , VID: V01 , SN:
NAME: "NIM subslot 0/2", DESCR: "C1100TG-ES-24"
PID: C1100TG-ES-24 , VID: V01 , SN:
NAME: "NIM subslot 0/3", DESCR: "16 ports Async Serial NIM"
PID: NIM-16A , VID: V02 , SN: DNI230206GP
NAME: "NIM subslot 0/0", DESCR: "Front Panel 2 ports Gigabitethernet Module"
PID: C1100TG-2x1GE , VID: V01 , SN:
NAME: "module R0", DESCR: "Cisco C1100TG-1N24P32A Route Processor"
PID: C1100TG-1N24P32A , VID: V01 , SN: PSZ23461DXT
NAME: "module F0", DESCR: "Cisco C1100TG-1N24P32A Forwarding Processor"
PID: C1100TG-1N24P32A , VID: , SN:
show platform: Example
Router# show platform
Chassis type: C1100TG-1N24P32A
Slot Type State Insert time (ago)
--------- ------------------- --------------------- -----------------
0 C1100TG-1N24P32A ok 1w0d
0/0 C1100TG-2x1GE ok 1w0d
0/1 C1100TG-A-48 ok 1w0d
0/2 C1100TG-ES-24 ok 1w0d
0/3 NIM-16A ok 1w0d
R0 C1100TG-1N24P32A ok, active 1w0d
F0 C1100TG-1N24P32A ok, active 1w0d
P0 PWR-12V empty never
P2 C1100TG-FANASSY ok 1w0d
Slot CPLD Version Firmware Version
--------- ------------------- ---------------------------------------
0 2004172A 17.2.1, 1913f73a
R0 2004172A 17.2.1, 1913f73a
F0 2004172A 17.2.1, 1913f73a
show platform diag: Example
Router# show platform diag
Chassis type: C1100TG-1N24P32A
Slot: 0, C1100TG-1N24P32A
Running state : ok
Internal state : online
Internal operational state : ok
Physical insert detect time : 00:00:45 (1w0d ago)
Software declared up time : 00:01:28 (1w0d ago)
CPLD version : 2004172A
Firmware version : 17.2.1, 1913f73a
Sub-slot: 0/0, C1100TG-2x1GE
Operational status : ok
Internal state : inserted
Physical insert detect time : 00:02:09 (1w0d ago)
Logical insert detect time : 00:02:09 (1w0d ago)
Sub-slot: 0/1, C1100TG-A-48
Operational status : ok
Internal state : inserted
Physical insert detect time : 00:02:09 (1w0d ago)
Logical insert detect time : 00:02:09 (1w0d ago)
Sub-slot: 0/2, C1100TG-ES-24
Operational status : ok
Internal state : inserted
Physical insert detect time : 00:02:09 (1w0d ago)
Logical insert detect time : 00:02:09 (1w0d ago)
Sub-slot: 0/3, NIM-16A
Operational status : ok
Internal state : inserted
Physical insert detect time : 00:04:12 (1w0d ago)
Logical insert detect time : 00:04:12 (1w0d ago)
Slot: R0, C1100TG-1N24P32A
Running state : ok, active
Internal state : online
Internal operational state : ok
Physical insert detect time : 00:00:45 (1w0d ago)
Software declared up time : 00:00:45 (1w0d ago)
CPLD version : 2004172A
Firmware version : 17.2.1, 1913f73a
Slot: F0, C1100TG-1N24P32A
Running state : ok, active
Internal state : online
Internal operational state : ok
Physical insert detect time : 00:00:45 (1w0d ago)
Software declared up time : 00:01:24 (1w0d ago)
Hardware ready signal time : 00:01:17 (1w0d ago)
Packet ready signal time : 00:01:32 (1w0d ago)
CPLD version : 2004172A
Firmware version : 17.2.1, 1913f73a
Slot: P0, PWR-12V
State : empty
Physical insert detect time : 00:00:00 (never ago)
Slot: P2, C1100TG-FANASSY
State : ok
Physical insert detect time : 00:01:15 (1w0d ago) show platform software status control-processor: Example
Router# show platform software status control-processor
RP0: online, statistics updated 10 seconds ago
Load Average: healthy
1-Min: 0.53, status: healthy, under 5.00
5-Min: 0.90, status: healthy, under 5.00
15-Min: 0.87, status: healthy, under 5.00
Memory (kb): healthy
Total: 3884836
Used: 1976928 (51%), status: healthy
Free: 1907908 (49%)
Committed: 3165956 (81%), under 90%
Per-core Statistics
CPU0: CPU Utilization (percentage of time spent)
User: 2.10, System: 2.20, Nice: 0.00, Idle: 95.69
IRQ: 0.00, SIRQ: 0.00, IOwait: 0.00
CPU1: CPU Utilization (percentage of time spent)
User: 2.80, System: 2.60, Nice: 0.00, Idle: 94.50
IRQ: 0.00, SIRQ: 0.10, IOwait: 0.00
CPU2: CPU Utilization (percentage of time spent)
User: 1.90, System: 2.10, Nice: 0.00, Idle: 96.00
IRQ: 0.00, SIRQ: 0.00, IOwait: 0.00
CPU3: CPU Utilization (percentage of time spent)
User: 10.12, System: 0.60, Nice: 0.00, Idle: 89.27
IRQ: 0.00, SIRQ: 0.00, IOwait: 0.00 show diag slot RO eeprom detail: Example
Router# show diag slot R0 eeprom detail
Slot R0 EEPROM data:
EEPROM version : 4
Compatible Type : 0xFF
PCB Serial Number : PSZ23461DXT
Controller Type : 3500
Hardware Revision : 1.0
Top Assy. Part Number : 74-122798-03
Board Revision : 02
Deviation Number : 0
Fab Version : 03
Product Identifier (PID) : C1100TG-1N24P32A
Version Identifier (VID) : V01
CLEI Code : TBD
Processor type : D0
Chassis Serial Number : PSZ23461E0E
Chassis MAC Address : 70c9.c686.2f00
MAC Address block size : 64
Manufacturing Test Data : 00 00 00 00 00 00 00 00
Asset ID :
show version: Example
Router# show version
Cisco IOS XE Software, Version BLD_POLARIS_DEV_LATEST_20200506_055739
Cisco IOS Software [Amsterdam], ISR Software (X86_64_LINUX_IOSD-UNIVERSALK9-M), Experimental Version 17.4.20200506:061234 [S2C-build-polaris_dev-112576-/nobackup/mcpre/BLD-BLD_POLARIS_DEV_LATEST_20200506_055739 121]
Copyright (c) 1986-2020 by Cisco Systems, Inc.
Compiled Wed 06-May-20 06:31 by mcpre
Cisco IOS-XE software, Copyright (c) 2005-2020 by cisco Systems, Inc.
All rights reserved. Certain components of Cisco IOS-XE software are
licensed under the GNU General Public License ("GPL") Version 2.0. The
software code licensed under GPL Version 2.0 is free software that comes
with ABSOLUTELY NO WARRANTY. You can redistribute and/or modify such
GPL code under the terms of GPL Version 2.0. For more details, see the
documentation or "License Notice" file accompanying the IOS-XE software,
or the applicable URL provided on the flyer accompanying the IOS-XE
software.
ROM: (c)
RSBL uptime is 1 week, 23 hours, 48 minutes
Uptime for this control processor is 1 week, 23 hours, 50 minutes
System returned to ROM by Reload Command
System image file is "bootflash:c1100tg-universalk9.BLD_POLARIS_DEV_LATEST_20200506_055739.SSA.bin"
Last reload reason: Reload Command
This product contains cryptographic features and is subject to United
States and local country laws governing import, export, transfer and
use. Delivery of Cisco cryptographic products does not imply
third-party authority to import, export, distribute or use encryption.
Importers, exporters, distributors and users are responsible for
compliance with U.S. and local country laws. By using this product you
agree to comply with applicable laws and regulations. If you are unable
to comply with U.S. and local laws, return this product immediately.
A summary of U.S. laws governing Cisco cryptographic products may be found at:
http://www.cisco.com/wwl/export/crypto/tool/stqrg.html
If you require further assistance please contact us by sending email to
export@cisco.com.
Suite License Information for Module:'esg'
--------------------------------------------------------------------------------
Suite Suite Current Type Suite Next reboot
--------------------------------------------------------------------------------
Technology Package License Information:
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Technology Technology-package Technology-package
Current Type Next reboot
------------------------------------------------------------------
appxk9 None Smart License None
securityk9 None Smart License None
ipbase ipbasek9 Smart License ipbasek9
The current throughput level is 500000 kbps
Smart Licensing Status: UNREGISTERED/No Licenses in Use
cisco C1100TG-1N24P32A (1RU) processor with 1383987K/6147K bytes of memory.
Processor board ID PSZ23461E0E
Router operating mode: Autonomous
1 Virtual Ethernet interface
26 Gigabit Ethernet interfaces
64 terminal lines
8192K bytes of non-volatile configuration memory.
4194304K bytes of physical memory.
6565887K bytes of flash memory at bootflash:.
Configuration register is 0x2102
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