This procedure is for installing the Single-Port Dual Slot OC-192c/STM-64c module set in the Quarter-rack Switch Router (QSR).
For easy and quick reference, this Field Replacement Procedure (FRP) is organized as follows:
Support Services Tools Needed Overview Optical Interfaces General QSR Module Population Rules Single-port Dual Slot OC-192c Population Rules Preparing to Install Modules Removing a Router Module Removing Fabric Filler or Filler Modules Installing the Single-Port Dual Slot OC-192c Module LEDs Configuring the Single-Port Dual Slot OC-192c Module Configuring the Interfaces Support Services
Avici offers three ways to obtain information on customer service:
- Phone:
United States Support: 877-292-8424 (TSR-BY-AVICI)
International Support: 01-978-964-2350
- E-mail: support@avici.com
- World Wide Web: http://www.avici.com
Tools Needed
- 1/2 in. flat-blade screwdriver
- Fiber optic cleaning kit
Overview
The Single-Port Dual Slot OC-192c/STM-64c module consists of a pair of modules, a 10 Gigabit optical output module (STM64/OC192a) and a companion module (STM64/OC192b) that are interconnected via a high speed, coaxial ribbon cable.
This OC-192c module set provides a short reach, intra-office, SONET/SDH OC-192c/STM-64c interface to both edge routers and long-haul inter-office transmission equipment such as OXCs and DWDM muxes. This module set includes MPLS.
Optical Interfaces
This Single-Port Dual Slot OC-192c module pair supports Telcordia Single Mode Short Reach SR-1 compliant optics as described in GR-253-CORE, Issue 3 and ITU-T Draft Rec. G.691 (refer to Table 1).
NOTE The Telcordia GR-253-CORE specification is a recent standard that is intended to replace the previous Bellcore GR-1377 standard for 10Gb SONET/SDH network equipment.
General QSR Module Population Rules
Each QSR chassis provides a single chassis with 10 slots to house route controller and router modules. The chassis accepts one or two route controller modules and up to eight router modules. Route controller modules can only reside in slots 10 and 1. In a QSR chassis with only one route controller module, install the route controller module in 10 and a fabric filler module in S1.
Figure 1 shows QSR chassis slot numbering when viewed from the front of the QSR.
Figure 1. QSR Chassis Slot Numbering
Rules for populating a single QSR chassis are as follows:
- Install route controller modules in slots 10 and 1. The QSR accepts only NSR® Route Controller Modules.
- When only one route controller module is installed, install it in slot 10. Install a filler module in slot 1.
- Initial installation of two router modules is required in initial installations in a chassis. After installation of a pair of modules, modules may then be added one by one.
- Every router module must be abutted by another router module, a route controller module, or a fabric filler module.
For example, if you plan to use only two router modules in the chassis and you install them in slots 5 and 6. Slots 4 and 7 must contain a fabric filler module.
The remaining empty slots must contain standard filler modules.
Or, your QSR contains a single route controller module in slot 10 and eight router modules in slots 2 through 8. Slot 1 must contain a fabric filler module.
Fabric filler modules ensure multiple communications routes between installed modules.
NOTE Fabric filler modules differ from standard filler modules.
- Add a standard filler module to any empty slot in the chassis. During QSR operation, standard filler modules ensure proper cooling and eliminate electromagnetic interference.
- A module occupying a slot uses the slot number as its identifier.
NOTE Remember, if installing modules in slots 5 and 6 only, slots 4 and 7 must contain a fabric filler module. The remaining empty slots must contain standard filler modules.
CAUTION (1) When handling router modules, wear a grounded wrist strap or equivalent antistatic protection to prevent damage to electronic parts.
Populating Multiple Chassis
Population rules for a second chassis that you plan to connect to the first chassis are similar to the rules for the first chassis. However, you must install a minimum of two router modules in the second and subsequent chassis. After installing the first two modules, you can continue to populate the chassis one module at a time, following the population rules in the preceding section.
A secondary chassis does not require a route controller module and can house up to 10 router modules. Place the last router module in slot 10.
Completely fill the first QSR chassis with router modules before starting to populate a second QSR that you plan to connect to the first.
Single-port Dual Slot OC-192c Population Rules
For this dual module set, there are two modules that make up the pair, a 10 Gigabit optical output module (STM64/OC192a) and a companion module (STM64/OC192b) that are interconnected via a high speed, coaxial ribbon cable: Certain restrictions apply when populating a QSR with the single-port dual slot OC-192c router module set.
Rules for populating a single QSR with modules are as follows:
- The module set consists of a blue and a red module. The module color label is located on the top side of the module.
- STM64/OC192a are red modules.
- STM64/OC192b are blue modules.
- Slots 2 through 5 accept blue modules and slots 6 though 9 accept red modules.
NOTE The module population rules for this module set MUST be followed explicitly.
- Install the first two router modules in slots 5 and 6. Install other router modules in the following slot order:
- 5&6, 4&7, 3&8, 2&9
Figure 2 shows the first single-port dual slot OC-192c set installed.
Figure 2. Populating the First OC-192c Module Set
Figure 3 shows the second and subsequent single-port dual slot OC-192c set installed.
Figure 3. Populating the Second OC-192c Module Set
- Populate slots 3 through 5 with blue modules and slots 6 through 8 with red modules.
- Flank every router module with another router module, a route controller module, or a fabric filler module.
- Fabric filler modules ensure multiple communications routes between installed router modules. You must install fabric filler modules like bookends around banks of router modules that would otherwise have empty slots adjacent to them.
Preparing to Install Modules
Depending on the individual configuration of the QSR, either a router module or a filler module must be removed in order to install this module set. Refer to "Removing a Router Module" to remove a router module and refer to "Removing Filler Modules" to remove a filler module.
Use these precautions to prevent damage from static electricity:
- Do not handle modules unless you are using the appropriate antistatic protection, such as an antistatic wrist or heel strap and a conductive mat.
- When using an antistatic wrist strap, attach the cord to the appropriate ground jack.
Handle modules by outer enclosure only. Do not touch electrical connections, pins, or soldered surfaces.
Installing the Antistatic Wrist Strap
A grounded antistatic wrist strap must be used to protect the TSR system modules and components from damage caused by static.
CAUTION (2) When handling router modules, wear a grounded wrist strap or equivalent antistatic protection to prevent damage to electronic parts.
PROCEDURE: Use the following procedure to install the antistatic wrist strap:
Step 1 Remove the alligator clip from the grounding pin on the antistatic wrist strap.
Step 2 Insert the grounding pin into the electrostatic discharge (ESD) jack on the front of the QSR shelf (see Figure 4).
Step 3 Use the ESD jack while handling modules.
Figure 4. QSR ESD Jack Location (Front)
Removing a Router Module
Before beginning this procedure, carefully inspect the package to ensure no damage occurred during shipping or delivery. If you suspect any possible damage, contact Support Services immediately.
If you are removing a router module, use the following instructions. If you are removing a fabric filler modules, refer to "Removing Fabric Filler Modules" . If you are removing a filler module, refer to "Removing Filler Modules" .
Before removing a module you must shut down the module being replaced. Use the shutdown command to disable all functions on the module. The module appears as administratively down when executing the show mod brief command.
Shutting Down the Module
To notify the system to shutdown a module, use the CLI command line to turn off the respective slot. Using the shutdown command allows the removal of the module without service interruption.
Example:
router(config)#module 1/34/1
router(config-if)#shutdown
router(config-if)#end
router#
When the module is shutdown, proceed with removing the router module.
Routine router module removal requires the disconnecting of existing fiber optic cable connections. Router modules serving as Server Attached Modules (SAMs) require disconnecting fiber optic and Ethernet cable connections to the server module.
CAUTION (3) Within five minutes of removal of a module, a replacement module or filler module must be installed in the empty slot to ensure proper air flow within the system.
Prior to removing a module you must shut down the module being replaced.
CAUTION (4) When handling router modules, wear a grounded wrist strap or equivalent antistatic protection to prevent damage to electronic parts.
PROCEDURE: Use the following steps to remove the router module(s):
Step 1 Verify that the wrist strap you are wearing is properly grounded or that other antistatic measures are in place.
Step 2 Open the pull tab on the center cable tray and gently pull the center cable tray out of the router (see Figure 5 and Step 6).
WARNING (1) This is a Class 1 laser product. Invisible laser radiation can be emitted from the aperture of the port when the fiber cable is disconnected. Avoid exposure to laser radiation and do not look directly into open apertures.
Figure 5. Router Module Faceplate
Step 3 Disconnect the lower fiber optic cables from the fiber cable adapters (SC) on the center cable tray. Move the cables to one side to ensure that they do not interfere with removal of the router module (see Figure 6).
Figure 6. Router Module Cable Connections
Step 4 Gently push the center cable tray back into the router module and close the cable tray pull tab. If necessary, repeat Step 2 through Step 3 for fiber optic cable connections in the right cable tray.
- If the module is a SAM, proceed to Step 5, if not then skip to Step 9.
Step 5 Open the cable tray pull tab on the faceplate of the router module tray marked "AUX." Gently pull the cable tray partially out of the module until detent clicks (see Figure 7).
Step 6 Open the pull tab on the center cable tray and gently pull the cable tray out of the router until detent clicks (see Figure 7).
Figure 7. Ethernet Cable Connection
Step 7 Disconnect and undress the RJ-45 Ethernet cable from the Ethernet port on the tray marked "AUX" (see Figure 7).
Step 8 Hang the Ethernet cable down and out of the way, or tuck the cable into the horizontal cable tray under the module shelf.
Step 9 Gently push all cable trays to the closed position and close the cable tray pull tabs.
WARNING (2) This is a Class 1 laser product. Invisible laser radiation can be emitted from the port aperture when the fiber cable is disconnected. Avoid exposure to laser radiation and do not look directly into open apertures
Step 10 To unlock the ejector latches, simultaneously slide the release levers in the direction of the arrows (see Figure 8).
Figure 8. Router Module Removal
Step 11 To release the module from the backplane, simultaneously rotate the ejector latches to a fully open position and carefully pull the router out a few inches out of the shelf (see Figure 8).
CAUTION (5) When the ejector latch release lever is in the open position, do not use the latch lever to remove the module or adjust the module in the card guides. Failure to adhere to these guidelines may result in equipment damage.
Step 12 Hold module in place with one hand at the bottom of case, then close the ejector latches by rotating them to the closed position and sliding the release levers in the direction of the arrows to lock the levers back into place.
Step 13 To remove the module, grasp it on the top and bottom and pull it carefully out of the shelf.
- A detailed inspection of the VHDM connector is required each time a module is removed or inserted. Lay the module gently on its side to perform a VHDM connector inspection.
NOTE Do not rest the module on the cable trays during inspection. This could result in the breaking of the pull tabs on the cable tray drawers.
Figure 9. Cable Tray Pull Tab
CAUTION (6) Any contact to a VHDM connector outside a QSR could damage the connector.
Step 14 Carefully inspect the VHDM connector for damage such as deformed sockets, holes between socket columns, and deformed guide fins on top and bottom of the socket columns.
Figure 10. VHDM Connector
.
NOTE If the VHDM connector has any signs of damage, DO NOT insert it into a QSR. Mark the module and slot as damaged and call TSR-BY-AVICI to request an Return Material Authorization (RMA).
Step 15 Before placing the module in a static-proof bag, replace the VHDM (Very High Density Modular) protective cap over the VHDM connector at the rear of the module. This will protect the pins while the module is not in the QSR (see Figure 15). Repackage according to RMA directions. Ship back to Avici.
Step 16 If the slot is not populated with a module, it must be filled with a filler or fabric filler module within five minutes.
Removing Fabric Filler or Filler Modules
The QSR systems ships with five (5) filler modules that ensure proper cooling and elimination of electromagnetic interference during operation two (2) fabric filler modules that ensure a robust and reliable topology between modules. Remove filler modules or fabric filler modules from slots intended for router modules.
Removing Fabric Filler Modules
If the slot intended for the route controller is filled with a fabric filler module, remove it using the procedure below.
To avoid damage to the backplane, perform a detailed inspection of the fabric filler module VHDM connector each time you remove or insert a module.
PROCEDURE: Use the following procedure to remove a fabric filler module:
Step 1 Verify that the wrist strap you are wearing is properly grounded or that other antistatic measures are in place.
Step 2 To unlock the ejector latches on the module, simultaneously do the following to both latches (see Figure 11):
- Press release levers in the directions indicated by the arrows on the latch.
- Rotate the ejector latches away from the module faceplate.
Figure 11. Opening Fabric Filler Module Latches
Step 3 Pull the module out of the chassis to unseat the backplane connectors.
Step 4 Carefully inspect the VHDM connector for damage such as deformed sockets, holes between socket columns, or distorted guide fins on the top and bottom of the socket columns (see Figure 12).
Figure 12. Fabric Filler Module VHDM Connector
.
CAUTION (7) If the VHDM connector shows any signs of damage, DO NOT insert it into a chassis. Mark the module as damaged and call TSR-BY-AVICI to request an RMA.
Removing Filler Modules
If the slot intended for the route controller is filled with a fabric filler module, remove it using the procedure below. Figure 13 shows a filler module.
Figure 13. Filler Module
PROCEDURE: Use the following steps to remove a filler module:
Step 1 Using a 1/2 in. flat-blade screwdriver turn the lock latches counter clockwise on the top and bottom of the module to loosen the module.
Step 2 Pull the filler module out of the slot (see Figure 14).
Step 3 Store the filler module in a dry, cool area.
Figure 14. Removing Filler Modules
Installing the Single-Port Dual Slot OC-192c Module
Install the Single-Port Dual Slot OC-192c modules after removing the filler modules. These modules must be installed in assigned slot locations. The two module set is interconnected via a high-speed, electrical coaxial ribbon cable that is shipped detached and assembled by field personnel at the time of installation.
NOTE With the Single-Port Dual Slot OC-192c module set, the pairs consist of one of each type of module. For example, slot 5 will hold a STM64/OC192b and slot 6 will hold a STM64/OC192a. This dual module set is the pair.
Avici Supplied Cables for OC-192c Module Set
Avici supplies a cable kit with each OC-192c module set. Refer to Table 2. These cables can also be purchased as a separate spares kit.
NOTE When the ejector latch release lever is in the open position, do not use the lever to lift or adjust the module in the card guide.
PROCEDURE: Use the following procedure to install the OC-192c modules:
Step 1 Remove the Single-Port Dual Slot OC-192c module from its static protection packaging.
Step 2 Before inserting the module, remove the VHDM protective cap from the end of the module. Set the protective cap aside in a safe place (refer to Figure 15).
Figure 15. Remove VHDM Protective Cap Before Use
CAUTION (8) Any contact to a VHDM connector outside a QSR could damage the connector.
- A detailed inspection of the VHDM connector is required prior to insertion. Lay the module gently on its side so you can perform a VHDM connector inspection.
NOTE Do not rest the module on the cable trays during inspection. This could result in the breaking of the pull tabs on the cable tray drawers.
Step 3 Carefully inspect the VHDM connector for damage such as deformed sockets, holes between socket columns, and deformed guide fins on top and bottom of the socket columns (refer to Figure 16).
Figure 16. VHDM Connector
.
NOTE If the VHDM connector has any signs of damage, DO NOT insert it into a QSR. Mark the module and slot as damaged and call TSR-BY-AVICI to request an RMA.
Step 4 Check the color indicator on the top of the module to determine if it is the right type for this slot, the QSR only accepts red modules. If it is not the correct color and there is no other slot of that color expecting a module of this type, contact Avici Customer Service, (See "Support Services"). Ensure that the cable trays on the router module being inserted and on the adjacent router modules are fully closed.
Step 5 Close the ejector latches completely by sliding the release levers in the direction of the arrows and locking into place (refer to Figure 17).
Figure 17. Router Module Installation
Step 6 Aligning the module with the card guides, in the slot, slide the first module into the slot halfway, repeat for second module.
NOTE Single-Port Dual Slot OC-192 modules are inserted as pairs. After inserting STM64/OC192a halfway, insert STM64/OC192b halfway into its slot.
Step 7 Open center and outside cable management trays on both modules.
Step 8 Attach the intermodule coaxial ribbon cable plug (80 pin) to the STM64/OC192a module Low Force Helix (LFH) socket located in the bottom of cable management tray 3-4. Once the cable is attached, tighten the M2 screws. Next, attach the opposite plug from this cable to the corresponding STM64/OC192b module socket and tighten the M2 screw (refer to Figure 18 and Figure 19).
Figure 18. Installing the Intermodule Coaxial Cable
- Figure 19 depicts an installed intermodule coaxial cable.
Figure 19. Installed Intermodule Coaxial Cable
Step 9 Close center and outside cable management trays on both modules.
Step 10 Slide both modules, at the same time, into the slot until the ejector latch release lever hits the outer lip of the shelf (refer to Figure 20).
Figure 20. Router Module Insertion -1
Step 11 To seat the modules, simultaneously slide the release levers in the direction of the arrows and rotate the ejector latches to the open position.
Step 12 Slide the modules in, one at a time, until the thumb latch levers slip into position behind the lip of the shelf (refer to Figure 21 and Figure 22).
Figure 21. Router Module Insertion - 2
Figure 22. Router Module Insertion - 3
NOTE Do not push the module too far into the slot. The ejector latch tabs must not extend beyond the groove that forms the outer lip of the shelf.
Step 13 Simultaneously depress the release levers on the top and bottom ejector latches and rotate the ejector latch to the closed position (see Figure 23 and Figure 24). Release the release levers once the ejector latches are closed.
NOTE If the ejector latches will not close, reseat the module by pulling it six inches out of the slot and then repeating Step 11 through Step 14, making sure the module is not inserted too far into the slot. If the ejector latches still do not close after reseating the module, contact Avici Customer Support.
Figure 23. Router Module Insertion - 6
Step 14 Simultaneously depress the release levers on the top and bottom ejector latches and rotate the ejector latch to the closed position (see Figure 23 and Figure 24). Release the release levers once the ejector latches are closed.
NOTE If the ejector latches will not close, reseat the module by pulling it six inches out of the slot and then repeating Step 11 through Step 14, making sure the module is not inserted too far into the slot. If the ejector latches still do not close after reseating the module, contact Avici Customer Support.
Figure 24. Router Module Insertion - 7
Step 15 Tuck the coaxial cable carefully into horizontal cable channel, taking care not to disturb fiber optic cables, already in place.
WARNING (3) This is a Class 1 laser product. Invisible laser radiation can be emitted from the aperture of the port when the fiber cable is disconnected. Avoid exposure to laser radiation and do not look directly into open apertures.
- If the module is a SAM, then perform Step 16 through Step 19. If the module is not a SAM perform Step 17, then skip to Step 20.
Step 16 Open the cable tray pull tab on the faceplate of the router module tray marked "AUX." Gently pull the cable tray partially out of the module until the detent clicks (refer to Figure 25).
Step 17 Open the pull tab on the center cable tray and gently pull the cable tray out of the router until detent clicks (refer to Figure 25).
Figure 25. Reconnecting the Ethernet Cable Connection
Step 18 Connect and route the RJ-45 Ethernet cable from the Ethernet port on the tray marked "AUX." using the cable management system.
Step 19 Gently push the cable tray marked "AUX" to the closed position and close the cable tray pull tabs.
NOTE Take care to route the cables using the cable management system to avoid damaging the cables when closing the drawers.
Step 20 Connect the fiber optic cables to the fiber cable adapters (SC) on the center cable tray (refer to Figure 26).
WARNING (4) This is a Class 1 laser product. Invisible laser radiation can be emitted from the port aperture when the fiber cable is disconnected. Avoid exposure to laser radiation and do not look directly into open apertures.
Figure 26. Connecting the Fiber Optic Cables
NOTE Take care to route the cables using the cable management system to avoid damaging the cables when closing the drawers.
Step 21 Gently push the center cable tray back into the router module and close the cable tray pull tabs.
LEDs
Each OC-192c module enclosure has one green square LED and one red triangle LED visible on the module faceplate (refer to Figure 27).
Figure 27. Router Module LEDs
During routing module POST, the red LED on the faceplate lights and remains lit until POST is completed. After completion of POST, the green LED lights and the red LED is extinguished.
The solid green LED indicates that the module has passed POST.
If the red LED remains lit, POST has detected a nonrecoverable error or fault. If the red LED remains lit, remove and reseat the module to run POST again.
Configuring the Single-Port Dual Slot OC-192c Module
The single-port dual slot OC-192c module consists of two modules: 1xoc192c-a (optical output module) and 1xoc192c-b (companion module). Both modules must be installed and activated for the configuration of the OC-192c interface to take place. All module commands relating to this single port OC-192c module set apply to both modules. The following sections describe module activation and interface configuration.
Activating a Single-Port Dual Slot OC-192c Module
PROCEDURE: Use the following steps to configure and activate a module.
Step 1 Use the module command to identify the first of the two module set installed.
Step 2 Use the no shutdown command to activate the module.
Step 3 Use the exit command to return to configuration command mode to activate module 2 of the 1xOC192c set.
Step 4 Use the module command identify the second of the two module set installed.
Step 5 Use the no shutdown command to activate the module.
Step 6 Use the end command to return to executive command mode.
Step 7 Use the show modules command to display the two modules that make up the 1xOC-192c set.
Example: In the following example:
- The module command assigns a Single-Port OC-192c module 1 in chassis 1, slot 3.
- The no shutdown command enables the module.
- The exit command returns you to configuration command mode in order to enter the module configuration mode for the second module.
- The module command assigns a Single-Port OC-192c module 2 in chassis 1, slot 8.
- The no shutdown command enables the module.
- The show modules command displays the new configuration:
router(config)#module 1/3 router(config-module)#no shutdown
router(config-module)#exit
router(config)#module 1/8
router(config-module)#no shutdown
router(config-module)#end
router#show modules
MODULE 1/3:
Discovered (1xoc192c-a) 1 Port Packet over SONET OC-192c (1 of 2 module set) MplsCapable Configured (1xoc192c-a) 1 Port Packet over SONET OC-192c (1 of 2 module set)
Physical port type is multi mode fiber
Hardware is Version 1.1, Revision 1
Fabric version is 2.0
Software version: . . .
Product Id: (Rev. xx); S/N xxxxxx
Started 1 time
Last started on SUN DEC 03 10:17:29 2000
Module uptime is 13 minutes, 5 seconds
Administratively Up; Current state is Up
Max number of historical logging files: 5
Module 3 interconnect interface status is UP
MODULE 1/8:
Discovered (1xoc192c-b) 1 Port Packet over SONET OC-192c (2 of 2 module set) MplsCapable
Configured (1xoc192c-b) 1 Port Packet over SONET OC-192c (2 of 2 module set)
Physical port type is multi mode fiber
Hardware is Version 1.1, Revision 1
Fabric version is 2.0
Software version: . . .
Product Id: (Rev.xx); S/N xxxxxx
Started 1 time
Last started on SUN DEC 03 10:17:15 2000
Module uptime is 13 minutes, 19 seconds
Administratively Up; Current state is Up
Max number of historical logging files: 5
Module 8 interconnect interface status is UP
The Module Command
The module command is used to enter module mode.
Syntax: [no] module bay#/slot# type
bay#
Defines the bay number in which this module is located. Range = 1 - 2.
slot#
Defines the slot number to configure. Slots are numbered from 1 to 40 beginning at the top left of the machine. Each physical slot is numbered on the hardware for reference.
type
The type of module to configure in this slot. Module type is automatically sensed by the bay controller and entered into the running configuration file. If for any reason you wish to pre-configure a module slot prior to the physical installation of that module, you must provide the type field in the command line. Available types include:
Within module mode, the following commands are available:
The primary function available in module mode is the ability to configure or delete the module that resides in the slot. This is done with the [no] shutdown command. The shutdown command disables and shuts down the module residing in the slot. The no shutdown command enables or configures the module residing in the slot.
Use the no module command to delete a module.
Related Commands: show modules
Display the Modules
Use the show modules command to display the current configuration and state for a module.
Syntax: show modules [bay/slot] [brief]
bay/slot
Show only information for the module residing in bay/slot where bay is the bay number and slot is the slot number.
brief
Display summarized information about the specified module(s).
Description: This command displays configuration information for one or all modules residing in this bay.
The show modules brief command will specify which modules are the SAM modules by starting the information line with an S in the case of the primary SAM and a B in the case of a backup SAM.
Default: None.
Command Mode: Privileged.
Example 1: In the following example, the show modules command displays information about all the configured modules:
router#show modules
MODULE 1/3:
Discovered (1xoc192c-a) 1 Port Packet over SONET OC-192c (1 of 2 module set) MplsCapable Configured (1xoc192c-a) 1 Port Packet over SONET OC-192c (1 of 2 module set)
Physical port type is multi mode fiber
Hardware is Version 1.1, Revision 1
Fabric version is 2.0
Software version: . . .
Product Id: (Rev. xx); S/N xxxxxx
Started 1 time
Last started on SUN DEC 03 10:17:29 2000
Module uptime is 13 minutes, 5 seconds
Administratively Up; Current state is Up
Max number of historical logging files: 5
Module 3 interconnect interface status is UP
MODULE 1/8:
Discovered (1xoc192c-b) 1 Port Packet over SONET OC-192c (2 of 2 module set) MplsCapable
Configured (1xoc192c-b) 1 Port Packet over SONET OC-192c (2 of 2 module set)
Physical port type is multi mode fiber
Hardware is Version 1.1, Revision 1
Fabric version is 2.0
Software version: . . .
Product Id: (Rev.xx); S/N xxxxxx
Started 1 time
Last started on SUN DEC 03 10:17:15 2000
Module uptime is 13 minutes, 19 seconds
Administratively Up; Current state is Up
Max number of historical logging files: 5
Module 8 interconnect interface status is UP
The following table describes the fields in the display:
Example 2: In the following example, the show modules brief command displays summarized information about the modules:
router#show module brief
Module Discovered Configured Starts Last Started State
1/1 4xOC12c 4xOC12c 1 WED SEP 20 10:40:07 2000 Up
1/2 4xOC12c 4xOC12c 1 WED SEP 20 10:40:07 2000 Up
1/3 1xoc192c-a 1xoc192c-a 1 WED SEP 20 10:40:07 2000 Up
.
.
.
1/14 1xOC48c 1xOC48c 1 WED SEP 20 10:40:08 2000 Up
1/15 4xOC3c 4xOC3c 1 WED SEP 20 10:40:07 2000 Up
S 1/16 1xOC12c 1xOC12c 1 WED SEP 20 10:39:57 2000 Up
1/17 4xOC12c 4xOC12c 1 WED SEP 20 10:40:07 2000 Up
1/18 4xOC12c 4xOC12c 1 WED SEP 20 10:40:08 2000 Up
1/19 4xOC12c 4xOC12c 1 WED SEP 20 10:40:07 2000 Up
B 1/20 4xOC12c 4xOC12c 1 WED SEP 20 10:40:07 2000 Up
router#
The following table describes the fields in the display:
Related Commands: module
Configuring the Interfaces
Activating a Dual Slot OC-192c Interface
PROCEDURE: Use the following steps to configure a dual slot OC-192c interface:
Step 1 Use the show module command to display configured modules. If the module is shut down, use the no shutdown command in module configuration mode to activate the module.
Step 2 Use the configure terminal command to enter configuration command mode.
Step 3 Use the interface command to enter interface configuration command mode.
Step 4 Optionally, modify the default settings.
Step 5 Optionally, configure a description for the interface.
Step 6 Configure a peer default address.
Step 7 Use the no shutdown command to activate the interface.
Step 8 Use the show interface command to display and verify the new interface configuration.
The Interface Command
The interface command defines/deletes an interface.
Syntax: [no] interface pos bay/slot/port
pos
Configures the interface to support a POS connection.
bay/slot/port
Identifies a specific interface on the TSR. Valid values are as follows:
bay: Bay number. Valid values 1 - 2. Default 1.
slot: Slot number where the module is installed in the QSR. Valid values are integers between 1 and 40.port: Valid values are 1.
Description: The interface pos command defines a POS interface and enters the interface configuration mode. The interface is not usable as a routing interface until you use the ip address and no shutdown commands. In the case of the dual slot OC-192c interface, both modules of the set must be activated before you can configure the interface.
To configure a POS interface:
Configuring a POS Interface
NOTE Be aware that the default for industry-standard routers is to obtain their clock from line. If both ends of the fiber are configured to recover the clock from line, the connection does not work, characterized by SONET failing to come up.
Be sure to include the clock source internal command in your configuration file when configuring the TSR to interoperate with industry-standard routers.PROCEDURE: To configure a POS interface, use the following steps:
Step 1 Use the interface pos bay#/slot#/port# command name the POS interface and enter Interface Configuration command mode.
Step 2 Use the ip address to assign an IP address to the interface.
Step 3 Use the clock source internal command to select the internal clock of the interface for transmissions.
Step 4 Use the no shutdown command to enable the interface.
Step 5 Use control z command to return to privileged mode.
Step 6 Use the show interface pos bay#/slot#/port# command to display the interface:
router(config)#interface pos 1/1/1
router(config-if)#ip address 5.10.1.2 255.255.0.0
router(config-if)#clock source internal
router(config-if)#no shutdown
router(config)Type Control Z to enter privileged more
router# show interface pos 1/1/1
POS 1/1/1 is up, line protocol is up
Internet address is 5.10.1.2 255.255.0.0
MTU 4470 bytes, BW xxxx Mbit/Sec
Encapsulation PPP,
Loopback: None, Keepalive: Disabled, Scramble: Enabled
LCP: Closed, IPCP: Closed, OSICP: Closed
Received:
0 bytes
0 directed packets, 0 multicast packets, 0 broadcast packets
0 discards, 0 errors, 0 unknown protocols
Transmitted:
0 bytes
0 directed packets, 0 multicast packets, 0 broadcast packets
0 discards, 0 errors
Medium Type SONET, Line Coding: NRZ, Line Type: ShortSingleMode
Sonet Loopback: None, Sonet Clock Source: Internal
Tx Path Trace: "<>"
Rx Path Trace: "<>"
Related Commands: show interface pos
show running-config
show startup-config
ip addressDisplay the OC-192c Interface
Use the show interfaces pos command to display information about OC-192c interface.
Syntax: show interfaces pos bay/slot/port
bay/slot/port
Identifies a specific interface.
Description: Use the show interfaces pos command with no arguments to display information about all the POS interfaces.
Use the show interfaces pos bay/slot/port command to display information about a specific POS interface.
Default: None.
Command Mode: Executive and privileged.
Example 1: In the following example, show interface pos chassis/slot/port command displays information about the specified POS interface:
router#show interface pos 1/1/1
POS 1/1/1 is down, line protocol is down
Internet address is 5.10.1.2
Remote address is 5.10.1.1
MTU 4470 bytes, BW 9620 Mbit/Sec
Encapsulation PPP
Received:
686098669157 bytes
1663792145 directed packets, 0 multicast packets, 0 broadcast packets
4700315 discards, 4700315 errors, 0 unknown protocols
Transmitted:
1007238934432 bytes
2424451373 directed packets, 0 multicast packets, 0 broadcast packets
34506 discards, 0 errors
Medium Type SONET, Line Coding: NRZ, Line Type:
Sonet Loopback: None, Sonet Clock Source: Internal
The following table describes the fields in the display: