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Power Management for the Cisco 12000 Series Router

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Power Management for the Cisco 12000 Series Router

Table Of Contents

Power Management for the Cisco 12000 Series Router

Contents

Restrictions for Power Management for the Cisco 12000 Series Router

Information About Power Management for the Cisco 12000 Series Router

Power Manager Facility

Power Zones

Additive and Redundant Modes

Power Manager Error Messages

How to Configure the Power Management Feature

Changing the Power Manager Calculation Mode

Examples

Additional References

Related Documents

Standards

MIBs

RFCs

Technical Assistance

Command Reference

power-mgr

show gsr power-mgr


Power Management for the Cisco 12000 Series Router


Revised: July 30, 2009, OL-8741-01, Rev. B0

Some combinations of older power supplies and recent line cards in Cisco 12000 Series routers can result in a condition where the total power required to operate exceeds the total power available. The power management feature calculates the maximum possible power consumption of all chassis components and generates warning messages if the calculation indicates the possibility of an underpowered condition. Messages are also generated for events that affect power consumption. New show command output provides power consumption ratings of all supported line cards.

Feature History for Power Management for the Cisco 12000 Series Router

Release
Date
Modification

12.0(31)S

04/29/05

This feature was introduced for the Cisco 12000 Series routers.

12.0(31)S

10/28/05

Bug fixes incorporated.

12.0(32)S

07/30/09

Updated the configuration CLI for the "additive" mode of the "power-mgr" command.


Finding Support Information for Platforms and Cisco IOS Software Images

Use Cisco Feature Navigator to find information about platform support and Cisco IOS software image support. Access Cisco Feature Navigator at http://www.cisco.com/go/fn. You must have an account on Cisco.com. If you do not have an account or have forgotten your username or password, click Cancel at the login dialog box and follow the instructions that appear.

Contents

Restrictions for Power Management for the Cisco 12000 Series Router

Information About Power Management for the Cisco 12000 Series Router

How to Configure the Power Management Feature

Additional References

Command Reference

Restrictions for Power Management for the Cisco 12000 Series Router

The Power Management feature is not supported on the Cisco 12008 or 12010 routers.

Information About Power Management for the Cisco 12000 Series Router

To configure the Power Management for the Cisco 12000 Series Router feature, you should understand the following concepts:

Power Manager Facility

Power Zones

Additive and Redundant Modes

Power Manager Facility

The introduction of high-wattage Cisco 12000 Series line cards has made theoretical chassis configurations possible in which the maximum power required for the router could exceed the maximum power available if older power supplies are installed. The Power Management for the Cisco 12000 Series Router feature permits the administrator to plan and monitor the power usage, as well as dynamically receive messages related to events that change the power usage. The power manager feature does not control the power supplied to any component, it only monitors, calculates, and generates messages.

The power management feature can display a table of all supported Cisco 12000 Series field replaceable units (FRUs) with their rated maximum power consumption in watts, as well as dynamic summaries and individual power consumption calculations for all installed chassis components. The calculations are based on the rated maximum wattages and the power manager configuration options. System messages are generated for events that change power consumption. The following power-related events create logged messages:

Power supply insertion or removal

Power supply power-up or power-down

Line card OIR insertion or removal

CLI line card power-up or power-down

Environment monitor line card shutdown

mode change to additive or redundant

The power manager feature continually audits power supply capacities and the power up or down states of all chassis components every 2.5 seconds, then recalculates the power usage according to the power manager configuration. The power manager configuration can specify power zones and specify additive or redundant calculation modes. The default is redundant mode. The power manager facility can be disabled.

Power Zones

A power zone comprises the power supplies and other chassis components connected to the same power bus. The 16-slot DC-powered chassis with the original power supplies, has two independent power buses, and thus two power zones. Zone A corresponds to the upper card cage with its two power supplies, and Zone B corresponds to the lower card cage with its two power supplies. The 16-slot DC chassis with enhanced power supplies has one power zone. All other Cisco 12000 Series router chassis have one power zone.

Additive and Redundant Modes

Additive Watts = Total_Watts_of_Power_Supplies_in_Zone

Redundant Watts = (Total_Watts_of_Power_Supplies_in_Zone) - (Redundant_Power_Supply_Watts)

In additive mode, the total available power in a power zone is calculated by the power manager as the total capacity in watts of all operating power supplies in the zone. This value is recalculated when a change occurs in the status of a power supply in the zone.


Note Additive mode is provided for those installations where guaranteed system up-time is a lower priority than maximizing the number of line cards and chassis components installed.


In redundant mode the total available power reported for a zone is equivalent to the total capacity in watts of all operating power supplies in the zone minus the power ratings of operating redundant power supplies in the zone.

For example, a Cisco 12810 router with two 2,800 watt power supplies, and 1+1 power supply redundancy, would report 5,600 watts total available power in additive mode, and 2,800 watts total available power in redundant mode.

For chassis with two power zones, the power zones can be configured with the same or with differing modes.

Table 2 lists how redundancy is defined for Cisco 12000 Series powershelves.

Table 1 Cisco 12000 Series Router Power Supply Redundancy Scheme

Number of Power Supplies in Powershelf 1
Redundancy Type 2

2

1 + 1

3

2 + 1

4 AC

2 + 2

4 (DC original power supplies)

1 + 1 in Zone A, 1 + 1 in Zone B

4 (DC enhanced power supplies)

2 + 2

1 Redundancy allocations are valid for original and upgraded models of the AC power supplies.

2 In the n + x redundancy formulation, n represents the number of power supplies required for the maximum power demands and x is the number of additional power supplies installed. For example, n + 1 redundancy includes one power supply more than the minimum number required to sustain the maximum power demand of the system.


If the total power load of chassis components and line cards in a zone is less then or equal to the total available power reported by the power manager in redundant mode, the router can continue to safely operate in the event of a power supply failure.

Power Manager Error Messages

Some conditions may generate error messages even though the Power Manager feature is disabled. This is because the power manager is auditing the power system before the bootup procedure parses and executes the power manager disable command in the startup-config file.

Error Message    

%POWERMGR-0-ENQUEUE: Cannot enqueue event [chars] for device [dec]

Explanation    Power Manager internal failure occurred; possibly low memory condition.

Recommended Action    Copy the error message exactly as it appears on the console or in the system log. Research and attempt to resolve the error using the Output Interpreter https://www.cisco.com/cgi-bin/Support/OutputInterpreter/home.pl.
Also perform a search of the Bug Toolkit
http://www.cisco.com/cgi-bin/Support/Bugtool/home.pl. If you still require assistance, open a case with the Technical Assistance Center via the Internet http://tools.cisco.com/ServiceRequestTool/create/launch.do, or contact your Cisco technical support representative and provide the representative with the gathered information.

Error Message    

%POWERMGR-0-INITFAIL: Resource allocation error encountered during startup

Explanation    Power Manager subsystem failed during startup; lack of resources

Recommended Action    Copy the error message exactly as it appears on the console or in the system log. Research and attempt to resolve the error using the Output Interpreter https://www.cisco.com/cgi-bin/Support/OutputInterpreter/home.pl.
Also perform a search of the Bug Toolkit
http://www.cisco.com/cgi-bin/Support/Bugtool/home.pl. If you still require assistance, open a case with the Technical Assistance Center via the Internet http://tools.cisco.com/ServiceRequestTool/create/launch.do, or contact your Cisco technical support representative and provide the representative with the gathered information.

Error Message    

%POWERMGR-2-CANNOT_TALK: No alarmcard/busboard module available to communicate w/ PEM[dec]

Explanation    No alarmcard or busboard module was found available to talk to the PEMs. The results are unpredictable, as power availability cannot be determined. Some linecards may be left in an unpowered state as a result.

Recommended Action    Copy the error message exactly as it appears on the console or in the system log. Research and attempt to resolve the error using the Output Interpreter https://www.cisco.com/cgi-bin/Support/OutputInterpreter/home.pl.
Also perform a search of the Bug Toolkit
http://www.cisco.com/cgi-bin/Support/Bugtool/home.pl. If you still require assistance, open a case with the Technical Assistance Center via the Internet http://tools.cisco.com/ServiceRequestTool/create/launch.do, or contact your Cisco technical support representative and provide the representative with the gathered information.

Error Message    

%POWERMGR-2-INVALID_COND: Internal programatic error or invalid condition detected ([chars]:[dec])

Explanation    A disallowed condition internal to the Power Manager has been detected.

Recommended Action    Copy the error message exactly as it appears on the console or in the system log. Research and attempt to resolve the error using the Output Interpreter https://www.cisco.com/cgi-bin/Support/OutputInterpreter/home.pl.
Also perform a search of the Bug Toolkit
http://www.cisco.com/cgi-bin/Support/Bugtool/home.pl. If you still require assistance, open a case with the Technical Assistance Center via the Internet http://tools.cisco.com/ServiceRequestTool/create/launch.do, or contact your Cisco technical support representative and provide the representative with the gathered information.

Error Message    

%POWERMGR-2-OVERBUDGET: Power consumption has exceeded supply by [dec]W; results unpredictable

Explanation    The power calculated in use by the chassis exceeds that available by the powershelf. This condition could result in an outage of the chassis if action is not immediately taken.

Recommended Action    Remove some linecards to reduce power consumption, or install a higher capacity powershelf.

Error Message    

%POWERMGR-2-TIMEOUT: Timed out waiting for response from power-up of slot [dec]

Explanation    Power Manager internal failure occurred.

Recommended Action    Copy the error message exactly as it appears on the console or in the system log. Research and attempt to resolve the error using the Output Interpreter https://www.cisco.com/cgi-bin/Support/OutputInterpreter/home.pl.
Also perform a search of the Bug Toolkit
http://www.cisco.com/cgi-bin/Support/Bugtool/home.pl. If you still require assistance, open a case with the Technical Assistance Center via the Internet http://tools.cisco.com/ServiceRequestTool/create/launch.do, or contact your Cisco technical support representative and provide the representative with the gathered information.

Error Message    

S%POWERMGR-3-EVENT_ERROR: Spurious QUEUE_EVENT, dequeueing NULL pointer

Explanation    Power Manager main event loop encountered internal error.

Recommended Action    Copy the error message exactly as it appears on the console or in the system log. Research and attempt to resolve the error using the Output Interpreter https://www.cisco.com/cgi-bin/Support/OutputInterpreter/home.pl.
Also perform a search of the Bug Toolkit
http://www.cisco.com/cgi-bin/Support/Bugtool/home.pl. If you still require assistance, open a case with the Technical Assistance Center via the Internet http://tools.cisco.com/ServiceRequestTool/create/launch.do, or contact your Cisco technical support representative and provide the representative with the gathered information.

Error Message    

%POWERMGR-3-UNKNOWN_PEM: Unable to determine characteristics of PEM[dec]; skipping

Explanation    The characteristics of the power supply installed in the specified slot could not be determined. This supply is being skipped, and discovery of the rest of the powershelf will continue. If no supplies can be found, a failsafe type will be used to allow the chassis to come up to a point at which debugging of the problem is possible.

Recommended Action    Copy the error message exactly as it appears on the console or in the system log. Research and attempt to resolve the error using the Output Interpreter https://www.cisco.com/cgi-bin/Support/OutputInterpreter/home.pl.
Also perform a search of the Bug Toolkit
http://www.cisco.com/cgi-bin/Support/Bugtool/home.pl. If you still require assistance, open a case with the Technical Assistance Center via the Internet http://tools.cisco.com/ServiceRequestTool/create/launch.do, or contact your Cisco technical support representative and provide the representative with the gathered information.

Error Message    

%POWERMGR-3-UNKNOWN_PEMS: Unable to detect installed power supplies; using failsafe assumptions

Explanation    The installed power supplies (i.e., PEMs) could not be detected. To allow the chassis to come up, a set of conservative assumptions have been used for calculating power availability and consumption. Some linecards may be left in an unpowered state as a result.

Recommended Action    Copy the error message exactly as it appears on the console or in the system log. Research and attempt to resolve the error using the Output Interpreter https://www.cisco.com/cgi-bin/Support/OutputInterpreter/home.pl.
Also perform a search of the Bug Toolkit
http://www.cisco.com/cgi-bin/Support/Bugtool/home.pl. If you still require assistance, open a case with the Technical Assistance Center via the Internet http://tools.cisco.com/ServiceRequestTool/create/launch.do, or contact your Cisco technical support representative and provide the representative with the gathered information.

Error Message    

%POWERMGR-3-UNKNOWN_SHELF: Unable to determine powershelf type; using failsafe assumptions

Explanation    The powershelf type (AC or DC) could not be determined during bootup. To allow the chassis to come up, a set of conservative assumptions have been used for calculating power availability and consumption. Some linecards may be left in an unpowered state as a result.

Recommended Action    Copy the error message exactly as it appears on the console or in the system log. Research and attempt to resolve the error using the Output Interpreter https://www.cisco.com/cgi-bin/Support/OutputInterpreter/home.pl.
Also perform a search of the Bug Toolkit
http://www.cisco.com/cgi-bin/Support/Bugtool/home.pl. If you still require assistance, open a case with the Technical Assistance Center via the Internet http://tools.cisco.com/ServiceRequestTool/create/launch.do, or contact your Cisco technical support representative and provide the representative with the gathered information.

Error Message    

%POWERMGR-4-UNPOWERED:PEM[dec] inserted but unpowered

Explanation    The power supply specified has been installed in the chassis but is unpowered, most likely because of an unconnected power cord.

Recommended Action    Check the power cord and if installed correctly, remove and reinstall the PEM. If the error persists, contact customer support.

Error Message    

%POWERMGR-4-PEM_DOWN: PEM[dec] has powered down

Explanation    The power supply specified has powered down.

Recommended Action    This message is informational. No action is required.

Error Message    

%POWERMGR-5-INVALID_EVENT: Unexpected event [dec]/[dec]; ignoring

Explanation    Power Manager received an event that was not expected.

Recommended Action    Copy the error message exactly as it appears on the console or in the system log. Research and attempt to resolve the error using the Output Interpreter https://www.cisco.com/cgi-bin/Support/OutputInterpreter/home.pl.
Also perform a search of the Bug Toolkit
http://www.cisco.com/cgi-bin/Support/Bugtool/home.pl. If you still require assistance, open a case with the Technical Assistance Center via the Internet http://tools.cisco.com/ServiceRequestTool/create/launch.do, or contact your Cisco technical support representative and provide the representative with the gathered information.

Error Message    

%POWERMGR-5-REMOVED: PEM[dec] removed

Explanation    The power supply specified has been removed from the chassis.

Recommended Action    This message is informational. No action is required.

Error Message    

%POWERMGR-6-BUDGET_OK: Chassis power consumption is back within limits

Explanation    The power calculated in use by the chassis has returned to a value within the power supplied by the powershelf.

Recommended Action    This message is informational. No action is required.

Error Message    

%POWERMGR-6-INSERTED: PEM[dec] inserted, supplying [dec] watts

Explanation    The power supply specified has been installed in the chassis and is now active.

Recommended Action    This message is informational. No action is required.

Error Message    

%POWERMGR-6-PEM_UP: PEM[dec] powered up successfully, supplying [dec] watts

Explanation    The power supply specified has successfully powered up.

Recommended Action    This message is informational. No action is required.

How to Configure the Power Management Feature

The power management feature has only three configurable states, additive mode, redundant mode, and disable. The disable option is included for those who wish to suppress power manager messages.

Changing the Power Manager Calculation Mode

In the following configuration, one of two power zones in a 16-slot DC chassis is configured to calculate power status in additive mode.

SUMMARY STEPS

1. enable

2. configure terminal

3. power-mgr {additive | disable}

4. show gsr power-mgr [detail | table | layout]

DETAILED STEPS

 
Command or Action
Purpose

Step 1 

enable

Example:

Router> enable

Enables privileged EXEC mode.

Enter your password if prompted.

Step 2 

configure terminal

Example:

Router# configure terminal

Enters global configuration mode.

Step 3 

power-mgr {additive | disable}

Example:

Router(config)# power-mgr additive

Specifies that for power management calculation, the power zones power availability calculations are additive. Use the no form of the command to restore the redundant mode default.

Step 4 

exit

Example:

Router(config)# exit

Exits global configuration to privileged EXEC mode.

Step 5 

show gsr power-mgr [detail|table|layout]

Example:

Router# show gsr power-mgr

Displays a summary of the system power calculations and the current calculation mode (additive or redundant).

Examples

The following example disables the power manager:

router(config)# power-mgr disable

The following example enables the power manager:

router(config)# no power-mgr disable

The following example configures power zones as additive in a 16-slot Cisco 12000 Series router:

router(config)# power-mgr additive 
router(config)# exit 
router# show gsr power-mgr 

Power management summary
------------------------
Powershelf type: Intelligent DC Power Supplies
Operating phase: RUNNING_PHASE

  |Z|        Operating mode: ADDITIVE	 |Z|        Operating mode: ADDITIVE
  |O|    Total supply power: 4800 W      |O|    Total supply power: 4800 W
  |N|      Route processors:  120 W      |N|      Route processors:    0 W
  |E|             Linecards: 2108 W      |E|             Linecards:  378 W
  |A|    Chassis components:  213 W      |B|    Chassis components:  404 W
          Total inuse power: 2441 W              Total inuse power:  782 W
                  Remaining: 2359 W                      Remaining: 4018 W

PEM1 present in ZoneA, supplying 2400 watts; uptime 1d02h31m
PEM2 present in ZoneA, supplying 2400 watts; uptime 1d00h10m
PEM3 present in ZoneB, supplying 2400 watts; uptime 1d00h10m
PEM4 present in ZoneB, supplying 2400 watts; uptime 1d00h09m

The following example returns power zones to the default redundant mode in a 16-slot Cisco 12000 Series router:

router(config)# no power-mgr additive 
router(config)# exit
router# show gsr power-mgr 

Power management summary
------------------------
Powershelf type: Intelligent DC Power Supplies
Operating phase: RUNNING_PHASE

  |Z|        Operating mode: REDUNDANT   |Z|        Operating mode: REDUNDANT
  |O|    Total supply power: 2400 W      |O|    Total supply power: 2400 W
  |N|      Route processors:  120 W      |N|      Route processors:    0 W
  |E|             Linecards: 2108 W      |E|             Linecards:  378 W
  |A|    Chassis components:  213 W      |B|    Chassis components:  404 W
          Total inuse power: 2441 W              Total inuse power:  782 W
                  Remaining: - 41 W                      Remaining: 1618 W


PEM1 present in ZoneA, supplying 2400 watts; uptime 1d02h33m
PEM2 present in ZoneA, supplying 2400 watts; uptime 1d00h13m
PEM3 present in ZoneB, supplying 2400 watts; uptime 1d00h13m
PEM4 present in ZoneB, supplying 2400 watts; uptime 1d00h12m

The following example displays a power management summary for the system and by slot:

router# show gsr power-mgr detail

Power management summary
------------------------
Powershelf type: Intelligent DC Power Supplies
Operating phase: RUNNING_PHASE

           Operating mode: REDUNDANT
       Total supply power: 1100 W
         Route processors:   76 W
                Linecards:  508 W
       Chassis components:  602 W
        Total inuse power: 1186 W
                Remaining: - 86 W

PEM1 absent
PEM2 present, supplying 1100 watts; uptime 0d03h36m

Slot   Cardtype          Watts  Status
----   --------          -----  ------
** 0   OC12-4-POS            0  unpowered
   1   OC3-4-POS-X          90  powered
   2   GE-4                106  powered
   5   GSRP                 38  powered
   6   OC3-POS-16          100  powered
   7   OC12-ATM-4          122  powered
   8   OC3-4-POS-X          90  powered
   9   GSRP                 38  powered
  16   CSC10                19  powered
  17   CSC10                19  powered
  18   SFC10                64  powered
  19   SFC10                64  powered
  20   SFC10                64  powered
  21   SFC10                64  powered
  22   SFC10                64  powered
  24   ALARM10              33  powered
  25   ALARM10              33  powered
  29   BLOWER16            178  powered 

The following example displays a table listing the maximum power consumption ratings of all Cisco 12000 Series field replaceable units (FRUs).

router# show gsr power-mgr table

Power Manager device data:

FRU                  Description                                        Watts
---                  -----------                                        -----
GRP=                 Route Processor                                       38
GRP-B=               Route Processor                                       38
PRP-1=               Performance Route Processor                           60
PRP-2=               Performance Route Processor                           60

LC-4OC3/POS-SM=      4 Port Packet Over SONET OC-3c/STM-1                  80
LC-4OC3/POS-MM=      4 Port Packet Over SONET OC-3c/STM-1                  80
4OC3/POS-LR-SC=      4 Port Packet Over SONET OC-3c/STM-1                  80
LC-1OC12/POS-SM=     1 Port Packet Over SONET OC-12c/STM-4c                80
LC-1OC12/POS-MM=     1 Port Packet Over SONET OC-12c/STM-4c                80
4OC12/POS-IR-SC-B=   4 Port Packet Over SONET OC-12c/STM-4                100
4OC12/POS-MM-SC-B=   4 Port Packet Over SONET OC-12c/STM-4                100
OC48E/POS-SR-SC-B=   1 Port Packet Over SONET OC-48c/STM-16                78
OC48E/POS-SR-FC-B=   1 Port Packet Over SONET OC-48c/STM-16                78
OC48E/POS-LR-SC-B=   1 Port Packet Over SONET OC-48c/STM-16                78
OC48E/POS-LR-FC-B=   1 Port Packet Over SONET OC-48c/STM-16                78
8OC3/POS-SM=         8 Port Packet Over SONET OC-3c/STM-1                 100
8OC3/POS-MM=         8 Port Packet Over SONET OC-3c/STM-1                 100
16OC3/POS-SM=        16 Port Packet Over SONET OC-3c/STM-1                100
16OC3/POS-MM=        16 Port Packet Over SONET OC-3c/STM-1                100
4OC48/POS-SR-SC=     4 Port Packet Over SONET OC-48c/STM-16               212
4OC48/POS-SR-FC=     4 Port Packet Over SONET OC-48c/STM-16               212
4OC48/POS-LR-SC=     4 Port Packet Over SONET OC-48c/STM-16               212
4OC48/POS-LR-FC=     4 Port Packet Over SONET OC-48c/STM-16               212
OC192/POS-VSR=       1 Port Packet Over SONET OC-192c/STM-64              174
OC192/POS-SR2-SC=    1 Port Packet Over SONET OC-192c/STM-64              174
OC192/POS-SR-SC=     1 Port Packet Over SONET OC-192c/STM-64              174
OC192/POS-IR-SC=     1 Port Packet Over SONET OC-192c/STM-64              174
OC192/POS-LR-SC=     1 Port Packet Over SONET OC-192c/STM-64              174
OC48X/POS-LR-SC=     1 Port ISE Packet Over SONET OC-48c/STM-16           140
OC48X/POS-IR-SC=     1 Port ISE Packet Over SONET OC-48c/STM-16           140
OC48X/POS-SR-SC=     1 Port ISE Packet Over SONET OC-48c/STM-16           140
4OC12X/POS-M-SC-B=   4 Port ISE Packet Over SONET OC-12c/STM-4            140
4OC12X/POS-I-SC-B=   4 Port ISE Packet Over SONET OC-12c/STM-4            140
16OC3X/POS-M-MJ-B=   16 Port ISE Packet Over SONET OC-3c/STM-1            140
16OC3X/POS-IR-LC-B=  16 Port ISE Packet Over SONET OC-3c/STM-1            140
8OC3X/POS-MM-MJ-B=   8 Port ISE Packet Over SONET OC-3c/STM-1             105
8OC3X/POS-IR-LC-B=   8 Port ISE Packet Over SONET OC-3c/STM-1             105
4OC3X/POS-MM-MJ-B=   4 Port ISE Packet Over SONET OC-3c/STM-1              90
4OC3X/POS-IR-LC-B=   4 Port ISE Packet Over SONET OC-3c/STM-1              90
4OC3X/POS-LR-LC-B=   4 Port ISE Packet Over SONET OC-3c/STM-1              90
4OC48E/POS-SR-SC=    4 Port ES Packet Over SONET OC-48c/STM-16            212
4OC48E/POS-SR-FC=    4 Port ES Packet Over SONET OC-48c/STM-16            212
4OC48E/POS-LR-SC=    4 Port ES Packet Over SONET OC-48c/STM-16            212
4OC48E/POS-LR-FC=    4 Port ES Packet Over SONET OC-48c/STM-16            212
OC192E/POS-VSR=      1 Port ES Packet Over SONET OC-192c/STM-64           178
OC192E/POS-SR2-SC=   1 Port ES Packet Over SONET OC-192c/STM-64           178
OC192E/POS-SR-SC=    1 Port ES Packet Over SONET OC-192c/STM-64           178
OC192E/POS-IR-SC=    1 Port ES Packet Over SONET OC-192c/STM-64           178
OC192E/POS-LR-SC=    1 Port ES Packet Over SONET OC-192c/STM-64           178
2OC192E/POS-VSR=     2 Port ES Packet Over SONET OC-192c/STM-64           171
2OC192E/POS-SR2-SC=  2 Port ES Packet Over SONET OC-192c/STM-64           171
2OC192E/POS-SR-SC=   2 Port ES Packet Over SONET OC-192c/STM-64           171
2OC192E/POS-IR-SC=   2 Port ES Packet Over SONET OC-192c/STM-64           171
2OC192E/POS-LR-SC=   2 Port ES Packet Over SONET OC-192c/STM-64           171
8OC-48/POS-SFP       8 Port ES Packet Over SONET OC-48c/STM-16            165

LC-OC12-DS3=         1 port SONET OC12 channelized to DS3                  80
CHOC12/STS3-IR-SC=   1 port SONET OC12 channelized to STS-3c/STM-1         80
6CT3-SMB=            6 Port Channelized T3                                 77
4CHOC12/DS3-IR-SC-B= 4 port ISE OC12 channelized STS-3c/STM-1 or DS3/E3   140
CHOC48/DS3-IR-SC=    1 port ISE OC48 channelized STS-12c/STM-4, STS-...   140
CHOC48/DS3-SR-SC=    1 port ISE OC48 channelized STS-12c/STM-4, STS-...   140
2CHOC3/STM1-IR-SC=   2 Ports OC3 Channelized to DS1/E1                     80
CHOC12/STM4-IR-SC=   1 Port ISE OC12 Channelized to DS1/E1                 94
CHOC12/DS1-IR-SC=    1 Port ISE OC12 Channelized to DS1/E1                 94

6DS3-SMB-B=          6 Port Packet over DS3                                80
12DS3-SMB-B=         12 Port Packet over DS3                               80
6E3-SMB=             6 Port Packet over E3                                 80
12E3-SMB=            12 Port Packet over E3                                80

LC-1OC12/ATM-SM=     1 port ATM Over SONET OC12c/STM-4c                    62
LC-1OC12/ATM-MM=     1 port ATM Over SONET OC12c/STM-4c                    62
4OC3/ATM-IR-SC=      4 port ATM Over SONET OC-3c/STM-1                     70
4OC3/ATM-MM-SC=      4 port ATM Over SONET OC-3c/STM-1                     70
4OC12/ATM-IR-SC=     4 port ATM Over SONET OC12c/STM-4c                   122
4OC12/ATM-MM-SC=     4 port ATM Over SONET OC12c/STM-4c                   122
8OC03/ATM/TS-IR-B=   8 port ATM Over SONET OC-3c/STM-1 Version B           95
8OC03/ATM/TS-MM-B=   8 port ATM Over SONET OC-3c/STM-1 Version B           95
8OC03/ATM/TS-IR=     8 port ATM Over SONET OC-3c/STM-1                     95
8OC03/ATM/TS-MM=     8 port ATM Over SONET OC-3c/STM-1                     95
4OC12X/ATM-IR-SC=    4 Port ISE ATM Over SONET OC-12/STM-4                140
4OC12X/ATM-MM-SC=    4 Port ISE ATM Over SONET OC-12/STM-4                140
4OC3X/ATM-IR-SC=     4 Port ISE ATM Over SONET OC-3/STM-1                 140
4OC3X/ATM-MM-SC=     4 Port ISE ATM Over SONET OC-3/STM-1                 140

GE-GBIC-SC-B=        1 Port Gigabit Ethernet                               65
8FE-FX-SC-B=         8 Port Fast Ethernet                                  77
8FE-TX-RJ45-B=       8 Port Fast Ethernet                                  77
3GE-GBIC-SC=         3 Port Gigabit Ethernet                               71
10X1GE-SFP-LC=       10 Port Gigabit Ethernet                             191
EPA-GE/FE-BBRD       Modular Gigabit/FastEthernet                         198
EPA-3GE-SX/LH-LC     Modular Gigabit/FastEthernet                         198
EPA-24FE-TX          Modular Gigabit/FastEthernet                         198
10GE-SX/LH-LC-B=     10 Port Gigabit Ethernet Version B                   191
1X10GE-LR-SC=        1 Port 10GigEthernet Plus                            196
1x10GE-ER-SC=        1 Port 10GigEthernet Plus                            196
4GE-SFP-LC=          4 Port ISE Gigabit Ethernet                          106

OC12/SRP-IR-SC-B=    1 Port SONET based SRP OC-12c/STM-4                   80
OC12/SRP-MM-SC-B=    1 Port SONET based SRP OC-12c/STM-4                   80
OC12/SRP-LR-SC-B=    1 Port SONET based SRP OC-12c/STM-4                   80
OC12/SRP-XR-SC-B=    1 Port SONET based SRP OC-12c/STM-4                   80
OC48/SRP-LR-SC=      1 Port SONET based SRP OC-48c/STM-16                 100
OC48/SRP-SR-SC=      1 Port SONET based SRP OC-48c/STM-16                 100
OC192/SRP-VSR=       1 Port SONET based SRP OC-192c/STM-64                215
OC192/SRP-SR2-SC=    1 Port SONET based SRP OC-192c/STM-64                215
OC192/SRP-SR-SC=     1 Port SONET based SRP OC-192c/STM-64                215
OC192/SRP-IR-SC=     1 Port SONET based SRP OC-192c/STM-64                215
4OC12X/SRP-IR-LC=    4 Ports SONET based SRP ISE OC-12c/STM-4             140
4OC12X/SRP-XR-LC=    4 Ports SONET based SRP ISE OC-12c/STM-4             140
2OC12X/SRP-IR-LC=    2 Ports SONET based SRP ISE OC-12c/STM-4             140
2OC12X/SRP-XR-LC=    2 Ports SONET based SRP ISE OC-12c/STM-4             140

12000-SIP-600=       ISE 10G SPA Interface Card                           256
12000-SIP-400=       ISE 2.5G SPA Interface Card                          180

GSR16/80-CSC=        Clock Scheduler Card 16XOC48                          43
GSR16/80-SFC=        Switch Fabric Card 16XOC48                            35
GSR16/320-CSC=       Clock Scheduler Card 16XOC192                        106
GSR16/320-SFC=       Switch Fabric Card 16XOC192                           93
GSR10-CSC=           Clock Scheduler Card(10) OC-192                       19
GSR10-SFC=           Switch Fabric Card(10) OC-192                         64
GSR6-CSC=            Clock Scheduler Card(6) OC-192                        56
GSR6-SFC=            Switch Fabric Card(6) OC-192                          45
GSR04-FABRIC=        Clock Scheduler Card for 12404                       143
12810-CSC=           Clock Scheduler Card(10) OC-768                       54
12810-SFC=           Switch Fabric Card(10) OC-768                        107
12816-CSC=           Clock Scheduler Card(16) OC-768                      177
12816-SFC=           Switch Fabric Card(16) OC-768                        151
12010-CSC=           Advanced Clock Scheduler Card(10)                     19
12010-SFC=           Advanced Switch Fabric Card(10)                       64
12006-CSC=           Advanced Clock Scheduler Card(6)                      56
12006-SFC=           Advanced Switch Fabric Card(6)                        45
12004-SF=            Advanced Clock+Switch Fabric(4)                      143
12016-CSC=           Advanced Clock Scheduler Card(16)                    106
12016-SFC=           Advanced Switch Fabric Card(16)                       93
12810E-CSC=          Clock Scheduler Card(10) OC-768E                      55
12816E-CSC=          Clock Scheduler Card(16) OC-768E                     176

GSR16-BLOWER=        Blower Module(16)                                    178
12000/10/16-BLWER    Blower Module(16)                                    178
GSR10-ALRM=          Alarm Module(10)                                      33
GSR6-ALRM=           Alarm Module(6)                                       26
GSR16-ALRM=          Alarm Module(16)                                      35
GSR4-BLOWER=         Alarm Board(404)                                     115
GSR6-BLOWER=         Blower Module(6)                                     178
12000/6-BLOWER=      Blower Module(6)                                     178

The following example displays the types of Cisco 12000 Series powershelves, as well as the PEM (power supplies) numbering and the PEM positions within the shelves:

Router# show gsr power-mgr layout

GSR PEM layout (front view):

               +-----------------+-----------------+-----------------+
GSR16:3-AC     |       AC        |       AC        |       AC        |
               |     POWER 1     |     POWER 2     |     POWER 3     |
               |     (PEM1)      |     (PEM2)      |     (PEM3)      |
               +-----------------+-----------------+-----------------+


               +--------------------------+--------------------------+
GSR16:4-AC     |          PS A2           |          PS A1           |
               |          (PEM1)          |          (PEM2)          |
               +--------------------------+--------------------------+
               |          PS B2           |          PS B1           |
               |          (PEM3)          |          (PEM4)          |
               +--------------------------+--------------------------+


               +------------+-------------+-------------+------------+
GSR16:4-DC     |DC POWER B1 | DC POWER B2 | DC POWER A2 | DC POWER A1|
               |   (PEM3)   |    (PEM4)   |    (PEM2)   |    (PEM1)  |
               +------------+-------------+-------------+------------+


               +--------------------------+--------------------------+
GSR10:AC & DC  |          POWER_A         |         POWER_B          |
               |           (PEM1)         |          (PEM2)          |
               +--------------------------+--------------------------+


               +--------------------------+--------------------------+
GSR6:AC & DC   |          POWER_A         |         POWER_B          |
               |           (PEM1)         |          (PEM2)          |
               +--------------------------+--------------------------+


               +-----------------------------------------------------+
GSR404:AC & DC |                   no label (PEM2)                   |
               +-----------------------------------------------------+
               |                   no label (PEM1)                   |
               +-----------------------------------------------------+

Additional References

The following sections provide references related to Power Management for the Cisco 12000 Series Router.

Related Documents


Standards

Standards
Title

None


MIBs

MIBs
MIBs Link

No new or modified MIBs are supported by this feature, and support for existing MIBs has not been modified by this feature.

To locate and download MIBs for selected platforms, Cisco IOS releases, and feature sets, use Cisco MIB Locator found at the following URL:

http://www.cisco.com/go/mibs


RFCs

RFCs
Title

None


Technical Assistance

Description
Link

Technical Assistance Center (TAC) home page, containing 30,000 pages of searchable technical content, including links to products, technologies, solutions, technical tips, and tools. Registered Cisco.com users can log in from this page to access even more content.

http://www.cisco.com/public/support/tac/home.shtml


Command Reference

This section documents new commands.

power-mgr

show gsr power-mgr

power-mgr

To specify redundant or additive power calculation method, use the power-mgr command in global configuration mode. To enable or reset default power modes, use the no form of this command.

power-mgr {additive | disable}

no power-mgr {additive | disable}

Syntax Description

additive

Sets power calculations to additive mode. Default is redundant mode.

disable

Disables the power management feature. Default is enabled.


Command Default

Redundant is the default mode.

Command Modes

Global configuration

Command History

Release
Modification

12.0(31)S

This command was introduced on the Cisco 12000 Series routers.

12.0(32)S

Updated the CLI for the "additive" mode of the command.


Usage Guidelines

The power management facility dynamically calculates the power consumption of all chassis components and the total power available from the power supplies. The following events create logged messages:

Power supply insertion or removal

Power supply power-up or power-down

Line card OIR insertion or removal

CLI line card power-up or power-down

Environment monitor line card shutdown

mode change to additive or redundant

When an event occurs, the power consumption statistics are recalculated. The power manager facility does not affect the power level supplied to any component, it only monitors, calculates and collects power statistics and issues warnings. The total power reported depends on whether the router is configured in additive or in redundant mode. The default is redundant mode.

Power Zones

A power zone comprises a set of power supplies and the loads connected to them. The 16-slot DC-powered chassis with the original (not enhanced) power supplies, have a Zone A, corresponding to the upper card cage and its power supplies, and a Zone B, corresponding to the lower card and its power supplies. All other chassis have one power zone.

Additive Mode

In additive mode, the total power available (power budget) is calculated as the total capacity in watts of all operating power supplies in the zone.

Redundant Mode

In redundant mode the total available power reported for a zone is equivalent to the total capacity in watts of all operating power supplies in the zone minus the power ratings of operating redundant power supplies. Redundant mode is the default setting. Table 2 lists how redundant power supplies are allocated for different Cisco 12000 Series powershelves.

Table 2 Cisco 12000 Series Router Power Supply Redundancy Scheme

Number of Power Supplies in Powershelf 1
Redundancy Type 2

2

1 + 1

3

1 + 2

4 AC

2 + 2

4 (DC original power supplies)

1 + 1 in Zone A, 1 + 1 in Zone B

4 (DC enhanced power supplies)

2 + 2

1 Redundancy allocations are valid for original or upgraded models of the AC power supplies.

2 Left of the plus sign "+" is the number of redundant power supply units, the right side is the number of units the redundant unit(s) protect.


If the total power load of chassis components and line cards in a zone is less then or equal to the total available power reported by the power manager in redundant mode, the router can continue to safely operate in the event of a power supply failure (two power supply failures in the case of 16-slot chassis with 4 AC PEMs or 4 enhanced DC PEMs).

For chassis with two power zones, power zones can be configured with the same or with differing modes.

Examples

The following example disables the power manager:

router(config)# power-mgr disable

The following example enables the power manager:

router(config)# no power-mgr disable

The following example configures power zones as additive in a 16-slot Cisco 12000 Series router:

router(config)# power-mgr additive 
router(config)# exit 
router# show gsr power-mgr 

Power management summary
------------------------
Powershelf type: Intelligent DC Power Supplies
Operating phase: RUNNING_PHASE

  |Z|        Operating mode: ADDITIVE	 |Z|        Operating mode: ADDITIVE
  |O|    Total supply power: 4800 W      |O|    Total supply power: 4800 W
  |N|      Route processors:  120 W      |N|      Route processors:    0 W
  |E|             Linecards: 2108 W      |E|             Linecards:  378 W
  |A|    Chassis components:  213 W      |B|    Chassis components:  404 W
          Total inuse power: 2441 W              Total inuse power:  782 W
                  Remaining: 2359 W                      Remaining: 4018 W

PEM1 present in ZoneA, supplying 2400 watts; uptime 1d02h31m
PEM2 present in ZoneA, supplying 2400 watts; uptime 1d00h10m
PEM3 present in ZoneB, supplying 2400 watts; uptime 1d00h10m
PEM4 present in Zone2B, supplying 2400 watts; uptime 1d00h09m

The following example returns power zones to the default redundant mode in a 16-slot Cisco 12000 Series router:

router(config)# no power-mgr additive 
router(config)# exit 
router# show gsr power-mgr 

Power management summary
------------------------
Powershelf type: Intelligent DC Power Supplies
Operating phase: RUNNING_PHASE

  |Z|        Operating mode: REDUNDANT   |Z|        Operating mode: REDUNDANT
  |O|    Total supply power: 2400 W      |O|    Total supply power: 2400 W
  |N|      Route processors:  120 W      |N|      Route processors:    0 W
  |E|             Linecards: 2108 W      |E|             Linecards:  378 W
  |A|    Chassis components:  213 W      |B|    Chassis components:  404 W
          Total inuse power: 2441 W              Total inuse power:  782 W
                  Remaining: - 41 W                      Remaining: 1618 W


PEM1 present in ZoneA, supplying 2400 watts; uptime 1d02h33m
PEM2 present in ZoneA, supplying 2400 watts; uptime 1d00h13m
PEM3 present in ZoneB, supplying 2400 watts; uptime 1d00h13m
PEM4 present in Zone2B, supplying 2400 watts; uptime 1d00h12m

Related Commands

Command
Description

show gsr power-mgr

Displays power consumption information for the Cisco 12000 Series routers.


show gsr power-mgr

To display the power consumption of all Cisco 12000 Series line cards or the power consumption of the shelf and available remaining power, use the show gsr power-mgr command in privileged exec mode.

show gsr power-mgr [detail | table | layout]

Syntax Description

detail

Displays power management summary and the current power consumption for all the slots.

table

Displays maximum power consumption ratings for all supported field replaceable units (FRUs).

layout

Displays the placement of power supplies within various Cisco 12000 powershelves.


Command Default

There is no default for this command

Command Modes

Privileged EXEC

Command History

Release
Modification

12.0(31)S

This command was introduced.


Usage Guidelines

The power consumption values of the field replaceable units (FRUs) represents the maximum power consumption possible of the FRU, and not the actual power being consumed.

Examples

The following example displays a summary of total power consumption and total power available:

router# show gsr power-mgr 

Power management summary
------------------------
Powershelf type: Intelligent AC Power Supplies
Operating phase: RUNNING_PHASE 

           Operating mode: REDUNDANT 
       Total supply power: 2800 W
         Route processors:  120 W
                Linecards:  402 W
       Chassis components:  887 W
        Total inuse power: 1409 W
                Remaining: 1391 W

Table 3 show power-mgr Field Descriptions 

Field
Description

Powershelf type

The power subsystem in which the power supply modules (PEMs) are installed.

Operating phase

 

Operating mode

Redundant or Additive. The current power calculation mode.

Total supply power

Maximum power available for the zone.

Route processors

Power consumed by two route processors. Dual route processors are calculated regardless of operating mode.

Linecards

Total possible power that consumed by all linecards in the zone.

Chassis components

Total maximum power consumed by chassis components other than line cards (for example, clock scheduling cards and switching fabric).

Total inuse power

Sum of values for route processors, line cards, and chassis components.

Remaining

Difference between Total supply power and Total inuse power.


The following example displays a summary of power consumption, and consumption by slot.

router# show gsr power-mgr detail

Power management summary
------------------------
Powershelf type: Intelligent DC Power Supplies
Operating phase: RUNNING_PHASE

           Operating mode: REDUNDANT
       Total supply power: 1100 W
         Route processors:   76 W
                Linecards:  508 W
       Chassis components:  602 W
        Total inuse power: 1186 W
                Remaining: - 86 W


PEM1 absent
PEM2 present, supplying 1100 watts; uptime 0d03h36m

Slot   Cardtype          Watts  Status
----   --------          -----  ------
** 0   OC12-4-POS            0  unpowered
   1   OC3-4-POS-X          90  powered
   2   GE-4                106  powered
   5   GSRP                 38  powered
   6   OC3-POS-16          100  powered
   7   OC12-ATM-4          122  powered
   8   OC3-4-POS-X          90  powered
   9   GSRP                 38  powered
  16   CSC10                19  powered
  17   CSC10                19  powered
  18   SFC10                64  powered
  19   SFC10                64  powered
  20   SFC10                64  powered
  21   SFC10                64  powered
  22   SFC10                64  powered
  24   ALARM10              33  powered
  25   ALARM10              33  powered
  29   BLOWER16            178  powered 

Table 4 show power-mgr detail Field Descriptions 

Field
Description

Powershelf type

The power subsystem in which the power supply modules (PEMs) are installed.

Operating phase

 

Operating mode

Redundant or Additive. The current power calculation mode.

Total supply power

Maximum power available for the zone.

Route processors

Power consumed by two route processors. Power for two route processors is indicated regardless of operating mode.

Linecards

Total possible power consumption of all installed linecards in the zone.

Chassis components

Maximum possible power consumption by chassis components other than line cards (for example, clock scheduling cards and switching fabric).

Total inuse power

Sum of power consumption values for route processors, line cards, and chassis components.

Remaining

Difference between Total supply power and Total inuse power.

PEM1-PEM4

Operation status of each PEM in the zone.

Slot

The line card slot.

Cardtype

Description of line card.

Watts

Total possible power consumption of the line card in watts.

Status

Powered or Unpowered. The line card can be powered but not configured.


The following example displays the maximum power consumption ratings of supported Cisco 12000 Series line cards.

router# show gsr power-mgr table
Power Manager device data:

FRU                  Description                                        Watts
---                  -----------                                        -----
GRP=                 Route Processor                                       38
GRP-B=               Route Processor                                       38
PRP-1=               Performance Route Processor                           60
PRP-2=               Performance Route Processor                           60
LC-4OC3/POS-SM=      4 Port Packet Over SONET OC-3c/STM-1                  80
LC-4OC3/POS-MM=      4 Port Packet Over SONET OC-3c/STM-1                  80
4OC3/POS-LR-SC=      4 Port Packet Over SONET OC-3c/STM-1                  80
LC-1OC12/POS-SM=     1 Port Packet Over SONET OC-12c/STM-4c                80
LC-1OC12/POS-MM=     1 Port Packet Over SONET OC-12c/STM-4c                80
4OC12/POS-IR-SC-B=   4 Port Packet Over SONET OC-12c/STM-4                100
4OC12/POS-MM-SC-B=   4 Port Packet Over SONET OC-12c/STM-4                100
OC48E/POS-SR-SC-B=   1 Port Packet Over SONET OC-48c/STM-16                78
OC48E/POS-SR-FC-B=   1 Port Packet Over SONET OC-48c/STM-16                78
OC48E/POS-LR-SC-B=   1 Port Packet Over SONET OC-48c/STM-16                78
OC48E/POS-LR-FC-B=   1 Port Packet Over SONET OC-48c/STM-16                78
8OC3/POS-SM=         8 Port Packet Over SONET OC-3c/STM-1                 100
8OC3/POS-MM=         8 Port Packet Over SONET OC-3c/STM-1                 100
16OC3/POS-SM=        16 Port Packet Over SONET OC-3c/STM-1                100
16OC3/POS-MM=        16 Port Packet Over SONET OC-3c/STM-1                100
4OC48/POS-SR-SC=     4 Port Packet Over SONET OC-48c/STM-16               212
4OC48/POS-SR-FC=     4 Port Packet Over SONET OC-48c/STM-16               212
4OC48/POS-LR-SC=     4 Port Packet Over SONET OC-48c/STM-16               212
4OC48/POS-LR-FC=     4 Port Packet Over SONET OC-48c/STM-16               212
OC192/POS-VSR=       1 Port Packet Over SONET OC-192c/STM-64              174
OC192/POS-SR2-SC=    1 Port Packet Over SONET OC-192c/STM-64              174
OC192/POS-SR-SC=     1 Port Packet Over SONET OC-192c/STM-64              174
OC192/POS-IR-SC=     1 Port Packet Over SONET OC-192c/STM-64              174
OC192/POS-LR-SC=     1 Port Packet Over SONET OC-192c/STM-64              174
OC48X/POS-LR-SC=     1 Port ISE Packet Over SONET OC-48c/STM-16           140
OC48X/POS-IR-SC=     1 Port ISE Packet Over SONET OC-48c/STM-16           140
OC48X/POS-SR-SC=     1 Port ISE Packet Over SONET OC-48c/STM-16           140
4OC12X/POS-M-SC-B=   4 Port ISE Packet Over SONET OC-12c/STM-4            140
4OC12X/POS-I-SC-B=   4 Port ISE Packet Over SONET OC-12c/STM-4            140
16OC3X/POS-M-MJ-B=   16 Port ISE Packet Over SONET OC-3c/STM-1            140
16OC3X/POS-IR-LC-B=  16 Port ISE Packet Over SONET OC-3c/STM-1            140
8OC3X/POS-MM-MJ-B=   8 Port ISE Packet Over SONET OC-3c/STM-1             105
8OC3X/POS-IR-LC-B=   8 Port ISE Packet Over SONET OC-3c/STM-1             105
4OC3X/POS-MM-MJ-B=   4 Port ISE Packet Over SONET OC-3c/STM-1              90
4OC3X/POS-IR-LC-B=   4 Port ISE Packet Over SONET OC-3c/STM-1              90
4OC3X/POS-LR-LC-B=   4 Port ISE Packet Over SONET OC-3c/STM-1              90
4OC48E/POS-SR-SC=    4 Port ES Packet Over SONET OC-48c/STM-16            212
4OC48E/POS-SR-FC=    4 Port ES Packet Over SONET OC-48c/STM-16            212
4OC48E/POS-LR-SC=    4 Port ES Packet Over SONET OC-48c/STM-16            212
4OC48E/POS-LR-FC=    4 Port ES Packet Over SONET OC-48c/STM-16            212
OC192E/POS-VSR=      1 Port ES Packet Over SONET OC-192c/STM-64           178
OC192E/POS-SR2-SC=   1 Port ES Packet Over SONET OC-192c/STM-64           178
OC192E/POS-SR-SC=    1 Port ES Packet Over SONET OC-192c/STM-64           178
OC192E/POS-IR-SC=    1 Port ES Packet Over SONET OC-192c/STM-64           178
OC192E/POS-LR-SC=    1 Port ES Packet Over SONET OC-192c/STM-64           178
2OC192E/POS-VSR=     2 Port ES Packet Over SONET OC-192c/STM-64           171
2OC192E/POS-SR2-SC=  2 Port ES Packet Over SONET OC-192c/STM-64           171
2OC192E/POS-SR-SC=   2 Port ES Packet Over SONET OC-192c/STM-64           171
2OC192E/POS-IR-SC=   2 Port ES Packet Over SONET OC-192c/STM-64           171
2OC192E/POS-LR-SC=   2 Port ES Packet Over SONET OC-192c/STM-64           171
8OC-48/POS-SFP       8 Port ES Packet Over SONET OC-48c/STM-16            165
LC-OC12-DS3=         1 port SONET OC12 channelized to DS3                  80
CHOC12/STS3-IR-SC=   1 port SONET OC12 channelized to STS-3c/STM-1         80
6CT3-SMB=            6 Port Channelized T3                                 77
4CHOC12/DS3-IR-SC-B= 4 port ISE OC12 channelized STS-3c/STM-1 or DS3/E3   140
CHOC48/DS3-IR-SC=    1 port ISE OC48 channelized STS-12c/STM-4, STS-...   140
CHOC48/DS3-SR-SC=    1 port ISE OC48 channelized STS-12c/STM-4, STS-...   140
2CHOC3/STM1-IR-SC=   2 Ports OC3 Channelized to DS1/E1                     80
CHOC12/STM4-IR-SC=   1 Port ISE OC12 Channelized to DS1/E1                 94
CHOC12/DS1-IR-SC=    1 Port ISE OC12 Channelized to DS1/E1                 94
6DS3-SMB-B=          6 Port Packet over DS3                                80
12DS3-SMB-B=         12 Port Packet over DS3                               80
6E3-SMB=             6 Port Packet over E3                                 80
12E3-SMB=            12 Port Packet over E3                                80
LC-1OC12/ATM-SM=     1 port ATM Over SONET OC12c/STM-4c                    62
LC-1OC12/ATM-MM=     1 port ATM Over SONET OC12c/STM-4c                    62
4OC3/ATM-IR-SC=      4 port ATM Over SONET OC-3c/STM-1                     70
4OC3/ATM-MM-SC=      4 port ATM Over SONET OC-3c/STM-1                     70
4OC12/ATM-IR-SC=     4 port ATM Over SONET OC12c/STM-4c                   122
4OC12/ATM-MM-SC=     4 port ATM Over SONET OC12c/STM-4c                   122
8OC03/ATM/TS-IR-B=   8 port ATM Over SONET OC-3c/STM-1 Version B           95
8OC03/ATM/TS-MM-B=   8 port ATM Over SONET OC-3c/STM-1 Version B           95
8OC03/ATM/TS-IR=     8 port ATM Over SONET OC-3c/STM-1                     95
8OC03/ATM/TS-MM=     8 port ATM Over SONET OC-3c/STM-1                     95
4OC12X/ATM-IR-SC=    4 Port ISE ATM Over SONET OC-12/STM-4                140
4OC12X/ATM-MM-SC=    4 Port ISE ATM Over SONET OC-12/STM-4                140
4OC3X/ATM-IR-SC=     4 Port ISE ATM Over SONET OC-3/STM-1                 140
4OC3X/ATM-MM-SC=     4 Port ISE ATM Over SONET OC-3/STM-1                 140
GE-GBIC-SC-B=        1 Port Gigabit Ethernet                               65
8FE-FX-SC-B=         8 Port Fast Ethernet                                  77
8FE-TX-RJ45-B=       8 Port Fast Ethernet                                  77
3GE-GBIC-SC=         3 Port Gigabit Ethernet                               71
10X1GE-SFP-LC=       10 Port Gigabit Ethernet                             191
EPA-GE/FE-BBRD       Modular Gigabit/FastEthernet                         198
EPA-3GE-SX/LH-LC     Modular Gigabit/FastEthernet                         198
EPA-24FE-TX          Modular Gigabit/FastEthernet                         198
10GE-SX/LH-LC-B=     10 Port Gigabit Ethernet Version B                   191
1X10GE-LR-SC=        1 Port 10GigEthernet Plus                            196
1x10GE-ER-SC=        1 Port 10GigEthernet Plus                            196
4GE-SFP-LC=          4 Port ISE Gigabit Ethernet                          106
OC12/SRP-IR-SC-B=    1 Port SONET based SRP OC-12c/STM-4                   80
OC12/SRP-MM-SC-B=    1 Port SONET based SRP OC-12c/STM-4                   80
OC12/SRP-LR-SC-B=    1 Port SONET based SRP OC-12c/STM-4                   80
OC12/SRP-XR-SC-B=    1 Port SONET based SRP OC-12c/STM-4                   80
OC48/SRP-LR-SC=      1 Port SONET based SRP OC-48c/STM-16                 100
OC48/SRP-SR-SC=      1 Port SONET based SRP OC-48c/STM-16                 100
OC192/SRP-VSR=       1 Port SONET based SRP OC-192c/STM-64                215
OC192/SRP-SR2-SC=    1 Port SONET based SRP OC-192c/STM-64                215
OC192/SRP-SR-SC=     1 Port SONET based SRP OC-192c/STM-64                215
OC192/SRP-IR-SC=     1 Port SONET based SRP OC-192c/STM-64                215
4OC12X/SRP-IR-LC=    4 Ports SONET based SRP ISE OC-12c/STM-4             140
4OC12X/SRP-XR-LC=    4 Ports SONET based SRP ISE OC-12c/STM-4             140
2OC12X/SRP-IR-LC=    2 Ports SONET based SRP ISE OC-12c/STM-4             140
2OC12X/SRP-XR-LC=    2 Ports SONET based SRP ISE OC-12c/STM-4             140

12000-SIP-600=       ISE 10G SPA Interface Card                           256
12000-SIP-400=       ISE 2.5G SPA Interface Card                          180


GSR16/80-CSC=        Clock Scheduler Card 16XOC48                          43
GSR16/80-SFC=        Switch Fabric Card 16XOC48                            35
GSR16/320-CSC=       Clock Scheduler Card 16XOC192                        106
GSR16/320-SFC=       Switch Fabric Card 16XOC192                           93
GSR10-CSC=           Clock Scheduler Card(10) OC-192                       19
GSR10-SFC=           Switch Fabric Card(10) OC-192                         64
GSR6-CSC=            Clock Scheduler Card(6) OC-192                        56
GSR6-SFC=            Switch Fabric Card(6) OC-192                          45
GSR04-FABRIC=        Clock Scheduler Card for 12404                       143
12810-CSC=           Clock Scheduler Card(10) OC-768                       54
12810-SFC=           Switch Fabric Card(10) OC-768                        107
12816-CSC=           Clock Scheduler Card(16) OC-768                      177
12816-SFC=           Switch Fabric Card(16) OC-768                        151
12010-CSC=           Advanced Clock Scheduler Card(10)                     19
12010-SFC=           Advanced Switch Fabric Card(10)                       64
12006-CSC=           Advanced Clock Scheduler Card(6)                      56
12006-SFC=           Advanced Switch Fabric Card(6)                        45
12004-SF=            Advanced Clock+Switch Fabric(4)                      143
12016-CSC=           Advanced Clock Scheduler Card(16)                    106
12016-SFC=           Advanced Switch Fabric Card(16)                       93
12810E-CSC=          Clock Scheduler Card(10) OC-768E                      55
12816E-CSC=          Clock Scheduler Card(16) OC-768E                     176
GSR16-BLOWER=        Blower Module(16)                                    178
12000/10/16-BLWER    Blower Module(16)                                    178
GSR10-ALRM=          Alarm Module(10)                                      33
GSR6-ALRM=           Alarm Module(6)                                       26
GSR16-ALRM=          Alarm Module(16)                                      35
GSR4-BLOWER=         Alarm Board(404)                                     115
GSR6-BLOWER=         Blower Module(6)                                     178
12000/6-BLOWER=      Blower Module(6)                                     178

Table 5 show power-mgr table Field Descriptions 

Field
Description

FRU

Part number of the Field Replaceable Unit (FRU).

Description

Description of FRU.

Watts

Total possible power consumption of the FRU in watts.


The following example displays the labels of Cisco 12000 series router power supplies as they appear on the physical AC and DC power shelves:

Router#show gsr power-mgr layout
GSR PEM layout (front view):

               +-----------------+-----------------+-----------------+
GSR16:3-AC     |       AC        |       AC        |       AC        |
               |     POWER 1     |     POWER 2     |     POWER 3     |
               |     (PEM1)      |     (PEM2)      |     (PEM3)      |
               +-----------------+-----------------+-----------------+


               +--------------------------+--------------------------+
GSR16:4-AC     |          PS A2           |          PS A1           |
               |          (PEM1)          |          (PEM2)          |
               +--------------------------+--------------------------+
               |          PS B2           |          PS B1           |
               |          (PEM3)          |          (PEM4)          |
               +--------------------------+--------------------------+


               +------------+-------------+-------------+------------+
GSR16:4-DC     |DC POWER B1 | DC POWER B2 | DC POWER A2 | DC POWER A1|
               |   (PEM3)   |    (PEM4)   |    (PEM2)   |    (PEM1)  |
               +------------+-------------+-------------+------------+


               +--------------------------+--------------------------+
GSR10:AC & DC  |          POWER_A         |         POWER_B          |
               |           (PEM1)         |          (PEM2)          |
               +--------------------------+--------------------------+


               +--------------------------+--------------------------+
GSR6:AC & DC   |          POWER_A         |         POWER_B          |
               |           (PEM1)         |          (PEM2)          |
               +--------------------------+--------------------------+


               +-----------------------------------------------------+
GSR404:AC & DC |                   no label (PEM2)                   |
               +-----------------------------------------------------+
               |                   no label (PEM1)                   |
               +-----------------------------------------------------+

Related Commands

Command
Description

power-mgr

Configures the power manager calculation method.