Cisco SCE8000, SCE8000 10 GBE Quick Start Manual

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QUICK START GUIDE
Cisco SCE8000 10 GBE QUICK START GUIDE
1 Preparing for Installation
2 Rack-Mounting the SCE8000 Chassis
3 Connecting Power Supply Units
4 Connecting Management Interfaces and Performing Initial System Configuration
5 Cabling Line Ports
7 Troubleshooting
8 Obtaining Documentation and Submitting a Service Request
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Revised: December, 2008, Release 3.1.7, OL-16595-02
1 Preparing for Installation
This section contains warnings, tools and part information, and site preparation details.
Warning
Warning
Warning
Warning
Warning
Warning
This warning symbol means danger. You are in a situation that could cause bodily injury. Before you work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents.
Only trained and qualified personnel should install, replace, or service this equipment.
Read the installation instructions before you connect the system to its power source.
This unit is intended for installation in restricted access areas. A restricted access area is where access can only be gained by service personnel through the use of a special tool, lock and key, or other means of security, and is controlled by the authority responsible for the location.
Voltage is present on the backplane when the system is operating. To reduce risk of an electric shock, keep hands and fingers out of the power supply bays and backplane areas.
Do not work on the system or connect or disconnect cables during periods of lightning activity.
Warning
Before you begin the installation of the SCE8000, read the Regulatory Compliance and Safety Information for the
Cisco SCE8000 Platform document.
Site Preparation
Verify that the power service at the site is suitable for the SCE8000 chassis.
Print out and have accessible the Site Planning Checklist and the Cisco SCE8000 Installation Checklist from the Cisco
SCE8000 Installation and Configuration Guide to record information about this installation.
Tools and Parts
Use the following list of tools and parts as a checklist for preparing to install the SCE 8000 chassis:
Number 1 and number 2 Phillips screwdrivers
3/16-inch flat-blade screwdriver
Tape measure and level
Masking tape or some other method of marking the desired installation height in the rack
One grounding lug
Two M4 (metric) hex-head screws with locking washers
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Note The grounding lug and M4 hex-head screws with locking washers are provided in kit 69-0815-01
One grounding wire—Must be sized according to local and national installation requirements. Depending on the power
supply and system, a 12 AWG conductor or larger size wire is required for U.S. installations.
Crimping tool—Must be large enough to accommodate the girth of the grounding lug when crimping the grounding cable into the lug.
Wire-stripping tool
Appropriate cables to connect the SCE8000 to the network and console terminal
Unpacking the Cisco SCE8000 Chassis
Tip When you unpack the Cisco SCE8000, do not discard the shipping container. Flatten the shipping cartons and store
them with the pallet. You may need these containers if you move or ship the Cisco SCE8000 in the future.
Check the contents of the shipping container:
Check the contents of the accessories kit against the list of accessories in the Cisco SCE8000 Component List in the Cisco SCE8000 Installation and Configuration Guide and the packing slip. Verify that you received all listed equipment, which
should include the following:
Hardware and software documentation, if ordered
Optional equipment that you ordered, such as network interface cables, transceivers, or special connectors
Check the modules in each slot. Ensure that the configuration matches the packing list and that all the specified interfaces are included.
2 Rack-Mounting the SCE8000 Chassis
This chapter provides information for rack-mounting the SCE 8000 chassis.
Warning
Note Before you start the installation described in this chapter, see the Site Planning Checklist in the Cisco SCE8000
Installation Guidelines
Table 1 lists rack dimensions. Carefully check the contents of the shipping container, the accessories kit, and optional equipment.
Table 1 Rack Dimensions
Width 17.75 inches (45.09 cm)
Depth Minimum: 19.25 inches (48.9 cm)
Minimum vertical clearance 8.7 inches (22.09 cm) (5 RU)
Before you install, operate, or service the system, read the Regulatory Compliance and Safety Information for the
Cisco SCE8000 Platform. This guide contains important safety information you should know before working with
the system.
Installation and Configuration Guide to verify that all site planning activities are complete.
Maximum 32 inches (81.3 cm)
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Caution If the rack is on wheels, ensure that the brakes are engaged or that the rack is otherwise stabilized.
Note We recommend that you maintain a minimum air space of 6 inches (15 cm) between walls and the chassis air vents and
a minimum horizontal separation of 12 inches (30.5 cm) between two chassis to prevent overheating.
The installation hardware is not suitable for use with racks with obstructions (such as a power strip) that could impair access to field-replaceable units (FRUs).
Warning
To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions to ensure that the system remains stable. The following guidelines are provided to ensure your safety: >If it is the only unit in the rack, this unit must be mounted at the bottom of the rack. >When mounting this unit in a partially-filled rack, load the rack from the bottom to the top with the heaviest component at the bottom of the rack. >If the rack is provided with stabilizing devices, install the stabilizers before mounting or servicing the unit in the rack.
The chassis is shipped with the mounting brackets installed on the front of the chassis. You can remove these brackets and install them on the rear of the chassis, using the holes provided in the rear side of the chassis (Figure 1).
Figure 1 Cisco SCE 8000 Chassis Brackets
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Step 1 Position the chassis in the rack as follows. If the:
Front of the chassis (front panel) is at the front of the rack, insert the rear of the chassis between the mounting posts.
Rear of the chassis is at the front of the rack, insert the front of the chassis between the mounting posts.
Step 2 Align the mounting holes in the bracket (and optional cable guide) with the mounting holes in the equipment rack.
Step 3 Use a tape measure and level to choose and mark the position that the chassis is to be installed in the rack. Make a mark
at equal height on both sides of the rack. This helps ensure that the chassis is installed straight and level (Figure 2).
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Figure 2 Installing the Cisco SCE8000 Chassis in the Rack
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Step 4 Install the eight (four per side) 12-24 x 3/4-inch or 10-32 x 3/4-inch screws through the holes in the bracket and into
the threaded holes in the equipment rack posts.
Step 5 Use a tape measure and level to verify that the chassis is installed straight and level.
Installing an Optical Bypass Module
Two installation options exist for external bypass modules:
Chassis mount panel—This panel is mounted on slot #4 of the SCE 8000 chassis. It hosts two optical bypass modules, which will serve the two traffic links supported by one Cisco SCE 8000 chassis.
External mounting panel—This panel can be mounted in any 19-inch rack. It hosts up to 4 optical bypass modules, which serve four traffic links supported by two Cisco SCE 8000 platforms.
Step 1 For external mounting, install the external mounting panel in the 19-inch rack. Screw the mounting panel to the rack
using four 3/4-inch screws, two on each side, through the holes in the mounting panel and into the threaded holes in the rack posts. For internal mounting, the SCE8000 chassis is shipped with the chassis mounting panel installed in slot 4.
Step 2 Remove the module filler plate covering the subslot in the mounting panel by loosening the two screws.
Step 3 Carefully insert the optical bypass module into the subslot (no guide rails exist) and tighten the captive screws on either
side of the module (Figure 3).
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Figure 3 Optical Bypass Modules in External Mounting Panel
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3 Connecting Power Supply Units
The SCE8000 chassis is shipped with the power supplies (AC or DC) already installed. This section provides information for grounding the SCE8000 platform and connecting the AC or DC power supply units.
Connecting the Chassis Ground
Note If this equipment is installed in a U.S. or European Central Office, you must connect the system ground on both AC
and DC-powered systems to an earth ground.
Note For DC-powered systems, the system ground is also the power supply ground. The DC ground must be installed with
a permanent connection to an earth ground according to NEC guidelines.
Note When you use the PWR-2700-DC/4 power supply in the Cisco SCE8000 chassis, additional grounding requirements
exist.
Two threaded M4 holes are provided on the chassis frame to attach the ground cable.
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Before you connect system power or turn on the Cisco SCE 8000 chassis, you must complete this procedure:
Step 1 Remove approximately 0.75 inch (19 mm) of the covering from the end of the grounding wire using a wire-stripping
tool.
Step 2 Insert the stripped end of the grounding wire into the open end of the grounding lug.
Step 3 To secure the grounding wire in place in the grounding lug, use the manufacturer recommended crimping tool.
Step 4 Locate and remove the adhesive label from the system grounding pad on the chassis (Figure 4).
Figure 4 Installing the System Ground
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Step 5 Place the grounding wire lug against the grounding pad, making sure that solid metal-to-metal contact exists.
Step 6 Secure the grounding lug to the chassis using two M4 screws. Ensure that the grounding lug does not interfere with
other hardware or rack equipment.
Step 7 To ensure adequate earth ground for the Cisco SCE8000 chassis, prepare the other end of the grounding wire, and
connect it to an appropriate grounding point at your site.
Connecting Power
The following sections describe how to reconnect the AC or DC power.
Installing a DC-Input Power Supply
Note The DC return must remain isolated from the system frame and chassis (DC-I).
Warning
Before you perform any of the following procedures, ensure that power is removed from the DC circuit.
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Note Because the power requirement of the SCE8000 will not exceed 1350 W, it is not necessary to connect two pairs of input
wires to each power supply. If you want to connect two pairs of input wires, both pairs of input wires for one 2700 W DC-input power supply must come from the same battery system (A feed); and both pairs of input wires for the other power supply must come from another battery system (B feed).
Note For multiple DC input power supplies, each DC input must be protected by a dedicated circuit breaker or fuse. The
circuit breaker or fuse should be sized according to the power supply input rating and local or national electrical code requirements.
Step 1 Power supply ground is required. Install the PWR-2700-DC/4 power supply ground as described in this procedure.
Note The system ground connection with the PWR-2700-DC/4 power supply in a Cisco SCE 8000 is provided by the
PWR-2700-DC/4 power supply ground. Additionally, you can connect a system (earth) ground.
Note You must always connect the PWR-2700-DC/4 power supply ground.
Note You must always connect the PWR-2700-DC/4 power supply ground for both power supplies.
Note If you intend to use an additional system (earth ground), ensure that the system ground connection is made. For
ground connection installation instructions, see the “Connecting the Chassis Ground” section on page 6.
Step 2 Remove the plastic bag attached to the front panel and put aside. This bag contains two plastic terminal block barriers,
two cable ties, and two cable holder covers.
Step 3 Verify that power is off to the DC circuit connected to the power supply you are installing. Grasp both power supply
handles (Figure 5.) Slide the power supply into the power supply bay. Make sure that the power supply is fully seated in the bay.
Figure 5 Handling a DC-Input Power Supply
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Step 4 Tighten the power supply captive installation screws.
Warning
To ensure protective grounding continuity, power supply captive installation screws must be tight.
Note Because the power requirement of the SCE 8000 does not exceed 1350 W, it is not necessary to connect two pairs
of input wires to each power supply. If you want to connect two pairs of input wires, both pairs of input wires for one 2700 W DC-input power supply must come from the same battery system (A feed); and both pairs of input wires for the other power supply must come from another battery system (B feed).
Note For multiple DC input power supplies, each DC input must be protected by a dedicated circuit breaker or fuse. The
circuit breaker or fuse should be sized according to the power supply input rating and local or national electrical code requirements.
Step 5 Remove the four screws securing the terminal block cover, and slide the cover off of the terminal block (Figure 6).
Figure 6 DC-Input Front Panel for 2700 W DC-Input Power Supply
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Step 6 Attach the appropriate lugs to the DC-input wires and ground wire. The wires should be sized according to local and
national installation requirements. Use only copper wire. The maximum width of a lug is 0.600 inch (15.2 mm).
Note For North American installations, use fine-stranded copper conductors rated for 90-degrees Celsius.
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Note The power supply terminal block lug opening width is 0.62 inch (15.8 mm). The terminal posts are centered
0.625 inches (15.88 mm) apart and are 1/4-20 threaded. We recommend that you use an appropriately sized industry standard 2-hole, standard barrel compression lug. The power supply ground studs, located below the terminal block, are also threaded 1/4-20 and require two 1/4-inch split-ring washers and two 1/4-20 hex nuts.
Step 7 Connect the DC-input wires to the 2700 W power supply terminal block. Depending onto which side you are
connecting the DC-input wires, be sure that the DC-input wires rest in the appropriate cable holder. Figure 7 shows DC-input wires coming in from the left side.
Connect the DC-input wires to the 2700 W power supply terminal block in this order (Figure 7):
Ground
Negative (-)
Positive (+)
Note When you tighten the terminal nuts, make sure they are snug. Do not overtighten them. Recommended torque
strength is 20 inch-pounds. Over-tightening the terminal nuts can break the terminal block (maximum torque: 36 inch-pounds).
Figure 7 DC-Input Wires on Left Side
PWR-2700-DC/4
IN
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GAGED
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48V
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132220
When you install the unit, the ground connection must always be made first and disconnected last.
Step 8 Secure the ground cable to the cable holder using the two cable-ties.
Step 9 Retrieve the cable holder covers from the plastic bag and attach to the front panel at the locations (see Figure 6).
Note If the cable holder illustrated as number 5 and 8 in Figure 6 does not hold the DC input cables snugly, use a long
cable tie to secure the cable holders as illustrated in number 9.
Step 10 Secure the terminal block cover using four screws and the terminal block barriers with two screws each.
Step 11 Turn on the DC inputs and verify power supply operation by checking the power supply front panel LEDs.
The power supply rear panel LEDs should be in the following states:
Input OK LED is green
Fan OK LED is green
Output Fail LED is not lit
If the LEDs indicate a power problem, see the “Troubleshooting” section on page 21.
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Installing an AC-Input Power Supply
Warning
Step 1 Ensure that the system (earth) ground connection is made. For ground connection instructions, see the “Connecting the
Step 2 Verify that the power switch is in the Off (0) position.
Step 3 Plug the power cord into the power supply.
Step 4 Connect the other end of the power cord to an AC-input power source.
Caution In a system with dual power supplies, connect each power supply to a separate input source. In case of a power
Step 5 Turn the switch on the power supply to the On (|) position.
Step 6 Verify power supply operation by checking the power supply LEDs. The power supply LEDs should be in the following
This product requires short-circuit (over current) protection to be provided as part of the building installation. Install only in accordance with national and local wiring regulations.
Chassis Ground” section on page 6.
source failure, the second source will most likely still be available.
states:
Input OK LED is green
Fan OK LED is green
Output Failed LED is not lit
If the LEDs indicate a power issue, see the “Identifying Startup Issues” section on page 23.
4 Connecting Management Interfaces and Performing Initial System
Configuration
This section explains how to connect the SCE 8000 platform to a local console and how to cable the Gigabit Ethernet management interface.
Connecting the Local Console
You must first connect the unit to a local console and configure the initial settings for the SCE8000 to support remote management.
Make sure that the terminal configuration is as follows:
9600 baud
8 data bits
No Parity
1 stop bits
No flow control
The above Cisco SCE8000 port parameters are fixed and are not configurable.
Step 1 Plug the RS-232 serial cable provided with the Cisco SCE 8000 into the Con port on the front panel of the
SCE8000-SCM-E (item #2 in Figure 8).
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Figure 8 Connecting the Local Console to the SCE8000-SCM-E CON Port
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Step 2 Connect the other end of the serial cable (with an attached DB-9 or DB-25 connector) to the VT100 compatible local
(serial) terminal.
Step 3 Make sure the local terminal is configured as a VT-100 terminal, according to the fixed Cisco SCE8000 CON port
parameters.
Step 4 Make sure that the Cisco SCE8000 is powered on and has completed booting (this process may take several minutes).
Step 5 Press Enter several times until the Cisco logo appears on the local terminal.
Setting Up Initial Parameters
For the SCE platform to communicate properly, set basic global parameters. The following is a summary of the initial setup parameters and commands. For more information, refer to the Cisco SCE8000 Software Configuration Guide.
IP address and subnet mask of the Cisco SCE8000 platform. This is the IP address used by the GBE management interface.
IP address of the default gateway.
Hostname—The hostname is used to identify the SCE platform. It appears as part of the CLI prompt and is also returned
as the value of the MIB-II object sysName.
The maximum length is 20 characters.
The default hostname is SCE8000.
Passwords for user, admin, and root level access. These are authorization-level passwords, not individual passwords. These passwords may be encrypted.
Passwords must meet the following criteria:
Minimum length—4 characters
Maximum length—100 characters
Begin with an alpha character
May contain only printable characters
The default password for all levels is cisco.
System clock—Current date and time. The clock and the calendar must always be synchronized.
Time zone—The name or ID of the time zone along with the number of hours offset from UTC.
Domain name server—Default domain name, which is used to complete unqualified host names, as well as up to three
domain name servers, which are used for DNS lookup.
You must also enable DNS lookup.
RDR formatter destination—The SCE platform generates raw data records (RDRs) and sends them to the specified destinations (external collection systems) through the RDR formatter. You can configure up to eight RDR formatter destinations. For each destination, specify the IP address and port number.
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Table 2 lists commands for displaying the currently configured values and for configuring these parameters. It also lists the command mode for each configuration command. All show commands are executed from the User Exec command mode.
Table 2 Initial Setup Configuration
Configuration Command
Parameter show Command Configuration Command
Management IP address and subnet mask
Default gateway show ip default-gateway ip default-gateway x.x.x.x Global configuration
Hostname show hostname hostname host-name Global configuration
Authorization level passwords
Clock show clock
Time zone show timezone clock timezone zone-name
Domain name server show hosts ip domain-lookup
RDR formatter destination
show interface GigabitEthernet 1/1 ip address
N/A enable password level level
show calendar
show rdr-formatter destination rdr-formatter destination ip-address
ip address x.x.x.x subnet-mask GigabitEthernet
[encryption-type] password
calendar set hh:mm:ss day month year
clock read-calendar
or
clock set hh:mm:ss day month year clock update-calendar
offset-hours
ip domain-name domain-name
ip name-server server-address1
[server-address2] [server-address3]
port port-number
Mode
Interface configuration
Global configuration
Privileged EXEC
Global configuration
Global configuration
Global configuration
Connecting the Management Interface
The SCE8000-SCM-E is equipped with one active management port. This is a GBE port with a RJ-45 interface. It is located in slot# 1 of the Cisco SCE8000 chassis, and labeled Port1.
This port provides access from a remote management console to the Cisco SCE8000 through a LAN.
Cabling the Management Port
Step 1 Plug the Ethernet cable provided (with attached RJ-45 connector) into Port 1on the front panel of the SCE8000-SCM-E
(item #3 in Figure 9.)
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Figure 9 Cabling the Management Port
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Step 2 Connect the other end of the Ethernet cable into your management network. The Link LED on the SCE8000
management port lights.
Step 3 Test connectivity. From the host that you intend to use for remote management, ping to the Cisco SCE8000 by typing
ping and the Cisco SCE8000 IP address, and pressing Enter.
This verifies that an active connection exists between the specified station and the management port.
5 Cabling Line Ports
This chapter describes cabling the Cisco SCE8000 10 Gigabit Ethernet ports for single, cascaded, and multigigabit service control platforms (MGSCP) topologies.
The 10 Gigabit Ethernet ports are located on the 10 G SPA modules, which are installed in the SCE8000-SIP module in slot #3 of the Cisco SCE8000 chassis.
Warning
Class 1 laser. Avoid exposure to radiation and do not stare into open aperture.
SCE8000 Connectivity Summary
Table 3 through Table 7 summarize SCE 8000 connectivity for basic topologies. Receive-only topologies use only receive fibers.
Note You can implement receive-only topologies using either an optical splitter or a switch. If you use a switch, it must
support SPAN functionality that includes separation between ingress and egress traffic and multiple SPAN-port destinations.
Table 3 Single Link Connectivity
Port Link Side
3/0/0 Link 0 Subscribers
3/1/0 Link 0 Network
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Table 4 Dual Link Connectivity
Port Link Side
3/0/0 Link 0 Subscribers
3/1/0 Link 0 Network
3/2/0 Link 10 Subscribers
3/3/0 Link 1 Network
Table 5 Cascade Connectivity
Port on SCE 8000 #1 Connects to this...
3/0/0 Subscriber side network element
3/1/0 Network side network element
3/2/0 (cascade port) port 3/3/0 on SCE8000 #2
3/3/0 (cascade port) port 3/2/0 on SCE8000 #2
This port on SCE8000 #2
Connects to this....
3/0/0 Subscriber side network element
3/1/0 Network side network element
3/2/0 (cascade port) port 3/3/0 on SCE8000 #1
3/3/0 (cascade port) port 3/2/0 on SCE8000 #1
Table 6 Single Link Connectivity Using the Optical Bypass Module
Optical Bypass Port Connects to this...
A Subscriber side network element
B Network side network element
C SCE platform port 3/0/0
D SCE platform port 3/1/0
CTRL Left External Bypass port on SCE 8000-SCM-E module
Table 7 Dual Link Connectivity Using Optical Bypass Modules
Port on Optical Bypass #1 Connects to this...
A Subscriber side network element
B Network side network element
C SCE platform port 3/0/0
D SCE platform port 3/1/0
CTRL Left External Bypass port on SCE8000-SCM-E module.
Port on Optical Bypass #2 Connects to this...
A Subscriber side network element
B Network side network element
C SCE platform port 3/2/0
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Table 7 Dual Link Connectivity Using Optical Bypass Modules (continued)
Port on Optical Bypass #1 Connects to this...
D SCE platform port 3/3/0
CTRL Right External Bypass port on SCE 8000-SCM-E module
Deploying a Multigigabit Service Control Platform Topology
In a Multigigabit Service Control Platform (MGSCP) deployment, the cabling scheme depends on the number and arrangement of ports in the EtherChannel in the Cisco 7600 series router. It is therefore not possible to detail exact cabling schemes. When designing the cabling scheme, refer to the following general guidelines.
General guidelines for MGSCP topologies:
Because two links exist per Cisco SCE 8000 platform, the minimum number of platforms required is half the number of links used.
Each link corresponds to one port on the EtherChannel (EC) on the Cisco 7600 series router. Each EC supports a maximum of eight ports. Therefore, if all eight EC ports are configured, four Cisco SCE8000 platforms are required.
For N+1 redundancy, two ports (connected to the standby platform) must be configured as standby ports on both ECs. Therefore, for N+1 redundancy, one router and five Cisco SCE8000 platforms are used to support eight links.
If two Cisco 7600 series routers are used (for network redundancy), one link on each Cisco SCE8000 platform is connected to each router. This requires twice the number of Cisco SCE8000 platforms, one platform for each link.
A minimum of eight Cisco SCE8000 platforms are required to support eight ports.
For N+1 redundancy, nine Cisco SCE8000 platforms are used to support eight active links.
When cabling to the EC, follow these guidelines:
The Cisco SCE platform ports must be connected to the EC ports in the same order on both sides.
The EC ports should be sorted in an ascending order by their physical interface numbers.
In a topology with two Cisco 7600 series routers, the order of connection to the EC ports must be the same on both routers.
For both routers to send the traffic of a given subscriber to the same SCE platform, the SCE platforms must be connected to both routers in exactly the same order (one SCE platform connected to the first link on both routers, another SCE platform connected to the second link on both routers, and so on).
Cabling 10 GBE Line Interface Ports
Note When you install an external optical bypass module, the Cisco SCE 8000 line ports are connected to the module. See
Table 6 and Table 7 for connectivity.
Warning
Step 1 Obtain the appropriate fiber optic cable.
Step 2 Plus the fiber optic cable into the appropriate port on the 10 GBE interface on the SPA module in slot #3 of the
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Class 1 laser. Avoid exposure to radiation and do not stare into open aperture.
Cisco SCE 8000 (Figure 10).
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Figure 10 Cabling the 10 GBE Interface
SCE8000-SIP
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6 Completing the Installation
This module explains how to verify link connectivity and how to install a Cisco service control application.
Examining the LEDs
The 10 GBE Link LED should be green. This indicates that an active connection exists.
The 10 GBE RX and TX LEDs (if flashing green) indicate that traffic is being received or transmitted by the SCE 8000
platform, respectively.
Note In an inline topology, the RX and TX LEDs indicate that packets are being received and transmitted by the
SCE 8000 platform.
In optical splitter topologies, the RX LEDs are the sole indicators. The TX LEDs do not blink, because the TX is not connected to the port in this topology.
Performing Final Installation Verification
Viewing 10-Gigabit Ethernet Port Status
Step 1 At the Cisco SCE> prompt, type show interface TenGigabitEthernet 3/ baynumber /0.
This displays the port link status.
The following example shows how to display a system response.
Cisco SCE8000>show interface TenGigabitEthernet 3/1/0 Actual Status: Link is on Bandwidth: 10000000Kbps Burst-size: 500000bytes
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Monitoring Traffic Using the 10-Gigabit Ethernet Counters
In an inline topology, you can monitor traffic through the platform counters for both the RX and TX connections. As packets flow through the Cisco SCE8000 for both RX and TX, the counters increase.
However, in receive-only topologies, the counters for the TX do not increment because the SCE8000 is only monitoring traffic, and not re-transmitting traffic.
Step 1 At the Cisco SCE> prompt, type show interface TenGigabitEthernet 3/baynumber/0 counters. The TenGigabitEthernet
counters appear.
Step 2 Use the output to verify that traffic is taking place. You can see that the counters increase, together with real-time packet
flow through the Cisco SCE8000.
Remember, in bump-in-the-wire topology, both the RX and TX counters function as traffic monitors. For receive-only topologies using an external splitter, only the RX counters apply.
The following example shows how to view the counters of the first 10-Gigabit Ethernet interface.
Cisco SCE8000>show interface TenGigabitEthernet 3/0/0 counters In total octets: 100 In good unicast packets: 90 In good multicast packets: 0 In good broadcast packets: 10 In packets discarded: 0 In packets with CRC/Alignment error: 0 In undersized packets: 0 In oversized packets: 0 Out total octets: 93*2^32+1022342538 Out unicast packets: 858086051 Out non unicast packets: 0 Out packets discarded: 0
Viewing User Log Counters
View the user log for errors that may have occurred during the installation process.
Step 1 At the SCE> prompt, type show logger device User-File-Log counters and press Enter.
Step 2 If Total error messages or Total fatal messages appear, use the show logger device User-File-Log command to display
details about the errors.
SCE8000#show logger device user-file-log counters Logger device User-File-Log counters: Total info messages: 1 Total warning messages: 0 Total error messages: 0 Total fatal messages: 0
Configuring the SCE8000 Platform
After you install the SCE8000 platform hardware, check all external connections, turn on system power, and allow the system to boot, you are ready to install the service control application. However, before you install the application, you might need to configure the SCE platform. Instructions for configuring the SCE8000 platform are beyond the scope of this publication.
For information on system and interface configuration, refer to the following documents:
Cisco SCE8000 Software Configuration Guide
Cisco SCE8000 CLI Command Reference Guide
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Viewing Configurations
When you enter configuration commands, this action immediately affects the SCE platform operation and configuration. The configuration, referred to as the running-config, is saved in the SCE platform volatile memory and is effective while the SCE platform is up. After reboot, the SCE platform loads the startup-config, which includes the nondefault configuration that was saved by the user, into the running-config.
The SCE platform provides commands for:
Viewing the running configuration with only user-configured (nondefault) values: show running-config
Viewing the running configuration with all the SCE platform running configuration values, whether default or not: show
running-config all-data
Viewing the startup configuration: show startup-config
After configuring the SCE platform, you may query for the running configuration using the command show running-config.
Step 1 At the Cisco SCE8000# prompt, type show running-config. The system shows the running configuration.
SCE8000#show running-config #This is a general configuration file (running-config). #Created on 12:06:13 UTC SUN May 11 2009 #cli-type 1 #version 1 no management-agent notifications notification-list 1417,1418,804,815,1404,1405,1406,1407,1408,400 no management-agent notifications notification-list 402,421,440,441,444,445,446,450,437,457 no management-agent notifications notification-list 3593,3594,3595,10040 snmp-server community "public" ro RDR-formatter forwarding-mode multicast RDR-formatter destination 10.56.96.26 port 33000 category number 1 priority 100 RDR-formatter destination 10.56.96.26 port 33000 category number 2 priority 100 RDR-formatter destination 10.56.96.26 port 33000 category number 3 priority 100 RDR-formatter destination 10.56.96.26 port 33000 category number 4 priority 100 interface LineCard 0 connection-mode inline on-failure external-bypass no silent no shutdown attack-filter subscriber-notification ports 80 replace spare-memory code bytes 3145728 interface GigabitEthernet 1/1 ip address 10.56.96.46 255.255.252.0 interface TenGigabitEthernet 3/0/0 bandwidth 10000000 burst-size 50000 global-controller 0 name "Default Global Controller" interface TenGigabitEthernet 3/1/0 bandwidth 10000000 burst-size 50000 global-controller 0 name "Default Global Controller" interface TenGigabitEthernet 3/2/0 bandwidth 10000000 burst-size 50000 global-controller 0 name "Default Global Controller" interface TenGigabitEthernet 3/3/0 bandwidth 10000000 burst-size 50000 global-controller 0 name "Default Global Controller"
exit ip default-gateway 10.56.96.1 line vty 0 4 exit management-agent property "com.pcube.management.framework.install.activation.operation" "Install" management-agent property "com.pcube.management.framework.install.activated.package" "SCA BB" management-agent property "com.pcube.management.framework.install.activated.version" "3.1.6 build 79" management-agent property "com.pcube.management.framework.install.activation.date" "Sun May 11 08:44:04 GMT+00:00 2008" flow-filter partition name "ignore_filter" first-rule 4 num-rules 32 flow-filter partition name "udpPortsToOpenBySw" first-rule 40 num-rules 21
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Saving or Changing Configuration Settings
When you make changes to the current running configuration and you want those changes to remain in effect when the system restarts, you must save the changes before leaving the management session. To do so, save the running configuration to the startup configuration file.
The SCE platform provides multiple interfaces for configuration and management. All interfaces supply an API to the same database of the SCE platform. Any configuration made through one interface is reflected through all interfaces. Furthermore, when saving the running configuration to the startup configuration from any management interface, all configuration settings are saved regardless of the management interface used to set the configuration.
For backup purposes, the old startup-config file is saved under the directory:
To remove a configuration command from the running-config, use the no form of the command.
Step 1 At the SCE# prompt, type show running-config to view the running configuration. The running configuration appears.
Step 2 Check the configuration to make sure that it is set to your specifications. If not, make the changes you want before
saving.
Step 3 Type copy running-config startup-config. The system saves all running configuration information to the configuration
file, which is used when the system reboots.
The configuration file holds all information that is different from the system default in a file called config.tx1 located in the directory: /system.
/system/prevconf.
Saving or Changing Configuration Settings—Example
The following example shows how to save the running configuration file (first displaying the file to review the settings).
SCE#show running-config #This is a general configuration file (running-config). #Created on 12:06:13 UTC SUN May 11 2008 #cli-type 1 #version 1 no management-agent notifications notification-list 1417,1418,804,815,1404,1405,1406,1407,1408,400 no management-agent notifications notification-list 402,421,440,441,444,445,446,450,437,457 no management-agent notifications notification-list 3593,3594,3595,10040 snmp-server community "public" ro RDR-formatter forwarding-mode multicast RDR-formatter destination 10.56.96.26 port 33000 category number 1 priority 100 RDR-formatter destination 10.56.96.26 port 33000 category number 2 priority 100 RDR-formatter destination 10.56.96.26 port 33000 category number 3 priority 100 RDR-formatter destination 10.56.96.26 port 33000 category number 4 priority 100 interface LineCard 0 connection-mode inline on-failure external-bypass no silent no shutdown attack-filter subscriber-notification ports 80 replace spare-memory code bytes 3145728 interface GigabitEthernet 1/1 ip address 10.56.96.46 255.255.252.0 interface TenGigabitEthernet 3/0/0 bandwidth 10000000 burst-size 50000 global-controller 0 name "Default Global Controller" interface TenGigabitEthernet 3/1/0 bandwidth 10000000 burst-size 50000 global-controller 0 name "Default Global Controller" interface TenGigabitEthernet 3/2/0 bandwidth 10000000 burst-size 50000 global-controller 0 name "Default Global Controller" interface TenGigabitEthernet 3/3/0 bandwidth 10000000 burst-size 50000 global-controller 0 name "Default Global Controller"
exit
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ip default-gateway 10.56.96.1 line vty 0 4 exit management-agent property "com.pcube.management.framework.install.activation.operation" "Install" management-agent property "com.pcube.management.framework.install.activated.package" "SCA BB" management-agent property "com.pcube.management.framework.install.activated.version" "3.1.6 build 79" management-agent property "com.pcube.management.framework.install.activation.date" "Sun May 11 08:44:04 GMT+00:00 2008" flow-filter partition name "ignore_filter" first-rule 4 num-rules 32 flow-filter partition name "udpPortsToOpenBySw" first-rule 40 num-rules 21 SCE#copy running-config startup-config Writing general configuration file to temporary location... Backing-up general configuration file... Copy temporary file to final location... SCE#
Loading and Activating a Service Control Application
The Cisco SCE8000 platform provides the basic functionality of service control analysis and enforcement. A service control solution requires that a service control application be loaded into the platform to take advantage of the unique SCE platform capabilities.
Loading and activating an application includes the following stages:
Downloading the application provided as an SLI file to the Cisco SCE 8000 disk.
Activating the application.
Configuring the application.
The procedures for performing these operations is not described in this guide. For details, refer to the following documentation:
Cisco Service Control Application for Broadband User Guide
Cisco Service Control Application for Broadband Reference Guide
7 Troubleshooting
Troubleshooting the Cisco SCE 8000 Operational Status
Table 8 lists the operational states of the Cisco SCE 8000. The Status LED on the service control module reflects current Cisco SCE 8000 operational status. To show operational status, enter the command show system operation-status. Table 9 and Table 10 list LED status explanations.
Table 8 Cisco SCE 8000 Operational States
Cisco SCE8000 Operational Status Description Status LED State
Booting Initial state after reset Amber
Operational Cisco SCE 8000 becomes operational after completing the following:
Boot is completed
Power self-tests are completed without failure
Platform configuration is applied
Steady green
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Table 8 Cisco SCE 8000 Operational States (continued)
Cisco SCE8000 Operational Status Description Status LED State
Warning Cisco SCE 8000 is fully operational (as above) but one of the following
Flashing amber
occurred:
GBE Management port link is down
Temperature raised above threshold
Voltage not in required range
Fans problem
Power supply issue
Insufficient space on the disk
Note If the condition that caused the Cisco SCE8000 to be in Warning
state is resolved (for example, link is up) the Cisco SCE8000 reverts to Operational state.
Failure After bootup, system is in Failure state due to one of the following
Red
conditions:
Power-on test failure
Three abnormal reboots in less than 30 minutes
Platform configured to enter Failure mode consequent to
failure-induced reboot (this is configurable using CLI command)
Severe system health problem, such as extensive overheating or voltage out of correct operating range
Note Depending on the cause of failure, the management interface and the
platform configuration may or may not be active or available.
Table 9 Power Supply LEDs
LED Label Color State Function
INPUT OK Green On The input voltage is present and within the required range
Off The input voltage is not present or not within the required range.
OUTPUT FAIL Green On The output voltage is not within the required range.
Off The output voltage is in the required range.
FAN OK Green On Power supply internal fan is operational.
Off Power supply internal fan is not operational.
Power (front panel) Green Steady Installed power supplies are functioning normally.
Amber Steady One of the power supply units is disconnected or malfunctioning.
Off No power.
Table 10 Fan Assembly LED
LED Label Color State Function
FAN STATUS Green On All fans are operational.
Off One or more of the individual fans are not operational.
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Identifying Startup Issues
Startup issues are commonly due to a powers source issue or a poor cable connection.
This section describes the normal startup sequence and describes the steps to take if the system does not perform that sequence as expected. LEDs indicate all system states in the startup sequence. By checking the state of the LEDs, you can determine when and where the system failed in the startup sequence. Use the following descriptions to isolate the problem to a subsystem, and then proceed to the appropriate sections to try to resolve the problem.
When you start up the system by turning on the power supply switch, the following should occur:
You should immediately hear the fans operating.
If the Status LED is flashing orange, indicating a warning state, check the user log:
At the prompt, enter more user log
If any of the following warning messages appear, turn off the Cisco SCE 8000 platform and call technical support.
Voltage problem
Fan problem
Abnormal increase in interior temperature
8 Obtaining Documentation and Submitting a Service Request
For information on obtaining documentation, submitting a service request, and gathering additional information, see the monthly What’s New in Cisco Product Documentation, which also lists all new and revised Cisco technical documentation, at:
http://www.cisco.com/en/US/docs/general/whatsnew/whatsnew.html
Subscribe to the What’s New in Cisco Product Documentation as a Really Simple Syndication (RSS) feed and set content to be delivered directly to your desktop using a reader application. The RSS feeds are a free service and Cisco currently supports RSS Version 2.0.
Cisco and the Cisco Logo are trademarks of Cisco Systems, Inc. and/or its affiliates in the U.S. and other countries. A listing of Cisco's trademarks can be found at
www.cisco.com/go/trademarks. Third party trademarks mentioned are the property of their respective owners. The use of the word partner does not imply a partnership
relationship between Cisco and any other company. (1005R)
Any Internet Protocol (IP) addresses used in this document are not intended to be actual addresses. Any examples, command display output, and figures included in the document are shown for illustrative purposes only. Any use of actual IP addresses in illustrative content is unintentional and coincidental.
© 2008 Cisco Systems, Inc. All rights reserved.
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Americas Headquarters
Cisco Systems, Inc. San Jose, CA
Cisco has more than 200 offices worldwide. Addresses, phone numbers, and fax numbers are listed on the
OL-16595-02
Asia Pacific Headquarters
Cisco Systems (USA) Pte. Ltd. Singapore
Cisco Website at www.cisco.com/go/offices.
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