Cisco Systems VIP-FE-TX-4E User Manual

Customer Order Number:
Documentaion Part Number:

DOC-782879=
78-2879-01

VIP-FE-TX/4E Installation and Configuration

Product Number VIP-FE-TX/4E(=)

This configuration note is a standalone publication that provides instructions for installing,
configuring, and maintaining the Fast Ethernet/Ethernet Versatile Interface Processor
(VIP-FE-TX/4E) in your Cisco 7000 series and Cisco 7500 series routers.

The VIP-FE-TX/4E operates with the CxBus in the Cisco 7000 series and CyBus in the Cisco 7500
series, and requires that the host Cisco 7000 series and Cisco 7500 series router is running Cisco
Internetwork Operating System (Cisco IOS) Release 11.1(1) or later, or a Cisco-approved beta
version of Cisco IOS Release 11.1 or later.

Note The entire VIP-FE-TX/4E assembly, with port adapters installed, is a field-replaceable unit

(FRU). Individual port adapters are not available as spare parts.

Included are steps for VIP-FE-TX/4E hardware installation, and basic VIP configuration steps and
examples for configuring the individual interfaces on a new VIP.

This publication has two main sections:

• Versatile Interface Processor Functions, page 3—this section discusses general VIP features,

maintenance considerations, and overall functions

• VIP Port Adapter Functions, page 29—this section contains subsections that discuss each port

adapter and its specific features, configuration and connection requirements, and functions

You need only refer to the information that is specific to your FE-TX and 4E port adapter or that
applies tospecific VIP functionality.Atable of contents is included on page 2 so you can more easily
find what you need.

Note For complete descriptions of interface subcommands and the configuration options available

for VIP-related interfaces, and which support VIP functionality, refer to the section “If You Need
More Information.”

Copyright © 1995

Cisco Systems, Inc.

All rights reserved.

1

Table of Contents

Table of Contents

This configuration note includes the following sections:

• If You Need More Information

• Versatile Interface Processor Functions, page 3

Note The following section contains important information about the latest Cisco IOS release.

— What is the VIP?, page 3

— VIP Software Prerequisites, page 5
— VIP Hardware Prerequisites, page 5
— What is the Cisco 7000 Family?, page 5
— VIP Port Adapter Hardware Configuration Overview, page 10
— VIP Microcode Overview, page 11
— VIP Installation Prerequisites, page 11
— VIP Installation, page 16
— Checking the Installation and Verifying VIP Status, page 19
— Upgrading VIP Microcode, page 23
— Upgrading and Replacing DRAM SIMMs, page 26

• VIP Port Adapter Functions, page 29

— FE-TX Port Adapter, page 29
— 4E Port Adapter, page 44

• SELV Circuit Warning Translations, page 57

• Cisco Information Online, page 58

If You Need More Information

The Cisco Internetwork Operating System (Cisco IOS) software running the router contains
extensivefeatures and functionality.The effective use of many of many of these features is easier if
you have more information at hand.

To obtain general information about documentation, call Customer Service at 800 553-6387 or
408 526-7208. Customer Service hours are 5:00 a.m. to 6:00 p.m. Pacific time, Monday through
Friday (excluding companyholidays). You can also send e-mail to cs-rep@cisco.com. You can also
refer to the Cisco Information Packet that shipped with your router.

2 VIP-FE-TX/4E Installation and Configuration

Versatile Interface Processor Functions

For additional information on configuring the Cisco 7000 series or Cisco 7500 series routers, the
following documentation resources are available to you:

• UniverCD

This publication and all other Cisco Systems publications are available on UniverCD, which is
Cisco’s online library of product information. UniverCD is updated and shipped monthly, so it
might be more up to date than printed documentation. Toorder UniverCD,contact a Cisco Sales
or Customer Service representative.

• For systems with Cisco IOS Release 11.1(1), a Cisco-approved 11.1 beta software version, or a

later Cisco IOS release, refer to the following modular configuration and modular command
reference publications, as appropriate for your configuration:

— Configuration Fundamentals Configuration Guide
— Configuration Fundamentals Command Reference
— Wide-Area Networking Configuration Guide
— Wide-Area Networking Command Reference
— Standard Network Protocols Configuration Guide
— Standard Network Protocols Command Reference
— Network Protocols Configuration Guide
— Network Protocols Command Reference
— Bridging and IBM Networking Configuration Guide
— Bridging and IBM Networking Command Reference
— Configuration Builder Getting Started Guide
— Troubleshooting Internetworking Systems

Versatile Interface Processor Functions

The following sections describe the Versatile Interface Processor (VIP) and discuss VIP-specific
features and functions, such as installing and removing the VIP, installing and removing port
adapters, and using and configuring common VIP interface functions.

What is the VIP?

The VIP is a new interface processor for use with the Cisco 7000 series and Cisco 7500 series
routers, and it installs in the interface processor slots in your Cisco 7000 series or 7500 series router.
The VIP uses a single motherboard with up to two port adapters. The VIP port adapters provide the
individualLAN, WAN, or LAN/WAN interface ports. The VIP can be removedfrom a chassis while
power is on and the system is operating.

Caution The VIP supports online insertion and removal (OIR), which allows you to remove and

replacea VIPwithout first shuttingdown the system.Online insertion and removal maximizes router
availability by letting you add or remove VIPs during system operation; however, the system may
indicate a hardware failure if you fail to follow proper procedures. Tohelp avoid problems with the
installation, review the functional description in the section “Online Insertion and Removal—An
Overview” on page 13, and follow the VIP installation steps carefully.

VIP-FE-TX/4E Installation and Configuration 3

Versatile Interface Processor Functions

Note The VIP port adapters themselves do not support OIR, nor are they FRUs.

The VIP uses a Reduced Instructions Set Computing (RISC), Mips 4600 processor for high
performance, and has an internal operating frequency of 100 megahertz (MHz) and a 50-MHz
system bus interface. The VIP has 8 megabytes (MB) of dynamic random access memory (DRAM)
as the default DRAM configuration.

Figure 1 shows a VIP-FE-TX/4E. The VIP firmware (microcode), which contains card-specific
software instructions, resides in a Flash memory device in socket location U17. For pinouts, refer to
the section “FE-TX Port Adapter Receptacles, Cables, and Pinouts” on page 33. Single in-line
memory modules contain the DRAM. You can install VIPs in any availableinterface processor slots
in your Cisco 7000 or Cisco 7500 series router.

Figure 1 VIP with One FE-TX and One 4E Port Adapter (Product Number VIP-FE-TX/4E[=])

Bus connector

Microcode

handles not shown

Flash U17

U2

Port adapter

DRAM

SIMMs

U1

4E in port

FE-TX in
port adapter

adapter
slot 1

slot 0

MII

0

LINK

FAST ETHERNET

RJ45

0

1

2

3

LINK

1

3

0

2

ETHERNET-10BT

H4711

Note In the Cisco 7000, Cisco 7507 and Cisco 7513 chassis, the VIP is installed vertically. In the

Cisco 7010 and Cisco 7505 chassis, the VIP is installed horizontally. Port adapters have a handle
attached, but this handle is not shown to allow a full view of detail on each port adapter’s faceplate.

4 VIP-FE-TX/4E Installation and Configuration

VIP Software Prerequisites

The VIP requires that the host Cisco 7000 series and Cisco 7500 series router is running Cisco
Internetwork Operating System (Cisco IOS) Release 11.1(1) or later, or a Cisco-approved beta
version of Cisco IOS Release 11.1 or later.

Note The latest Cisco IOS release is available via anonymous File Transfer Protocol (FTP) from

ftp/beta111_dir@ftp.cisco.com. Detailed information about the latest Cisco IOS release can be

found in the ASCII file vip1-readme, which is also available via FTP from ftp.cisco.com in the
directory /ftp/beta111_dir. This ASCII file includes information and instructions on how to get
the current Cisco IOS software images and VIP microcode. To access information located in Cisco
Information Online (CIO), refer to the section “SELV Circuit Warning Translations” at the end of
this publication.

VIP Hardware Prerequisites

The VIP operates with the CxBus in the Cisco 7000 series and CyBus in the Cisco 7500 series, and
operates with the optional RSP7000 and RSP7000CI RSP-based processor modules in the
Cisco 7000 series routers: Cisco 7000 and Cisco 7010. The VIP will also operate with the Route
Processor (RP) and Switch Processor (SP) in the Cisco 7000 series routers. The VIP operates with
all RSP-based processor modules currently shipping in the Cisco 7000 series and Cisco 7500 series
routers: Cisco 7505, Cisco 7507, and Cisco 7513.

Versatile Interface Processor Functions

What is the Cisco 7000 Family?

For the Cisco 7000 family of routers, which includes the Cisco 7000 series and Cisco 7500 series
routers, network interfacesreside onmodular interfaceprocessors, including the VIP,which provide
a direct connection between external networks and the high-speed CxBus in the Cisco 7000 series
and the high-speed CyBus in the Cisco 7500 series.

In all systems, the remaining slots support any combination of network interface types: Ethernet
attachment unit interface (AUI), Ethernet 10BASE-T, Fast Ethernet 100BASE-TX, Asynchronous
Transfer Mode (ATM), Token Ring, multichannel applications, Fiber Distributed Data Interface
(FDDI), channel attachment, serial, or High-Speed Serial Interface (HSSI), and all VIP–based
interfaces.

VIP-FE-TX/4E Installation and Configuration 5

Versatile Interface Processor Functions

Cisco 7000 Series

Figure 2 and Figure 3 show the rear of the Cisco 7000 series routers: the seven-slot Cisco 7000 and
the five-slot Cisco 7010, respectively. In the Cisco 7000 series, two slots are reserved for the SP (or
SSP) and RP, or for the 7000 Series Route Switch Processor (RSP7000) and the 7000 Series Chassis
Interface (RSP7000CI). The remaining slots are for interface processors: slots 0 through 4 in the
Cisco 7000, and slots 0 through 2 in the Cisco 7010.

Figure 2 Cisco 7000, Interface Processor End

Captive
installation screw

Upper
power supply

DC FAIL
AC POWER

ENABLE

NORMAL

Captive
installation screw

Lower
power supply

I

O

DC FAIL
AC POWER

I

O

Interface processor slots 0

EJECT

SLOT 1

SLOT 0

ENABLE

2

1

3 4 RSP

CPU HALT

RESET

AUX.

CONSOLE

7000

slot 5

ROUTE SWITCH PROCESSOR

H5288

RSP
7000CI
slot 6

6 VIP-FE-TX/4E Installation and Configuration

Figure 3 Cisco 7010, Interface Processor End

EJECT

SLOT 1

NORMAL

ENABLE

SLOT 0

CPU HALT

Versatile Interface Processor Functions

RSP7000CI slot 4

RESET

ENABLE

AUX.

ROUTE SWITCH PROCESSOR

CONSOLE

RSP7000 slot 3
Interface processor slot 2

Interface processor slot 1
Interface processor slot 0

Cisco 7500 Series

Power switch

DC OK LED

Chassis ground

screw

Power receptacle

AC-input power supply

H5874

Figure 4, Figure 5, and Figure 6 show the rear of the Cisco 7500 series routers: the five-slot
Cisco 7505, the seven-slot Cisco 7507, and the thirteen-slot Cisco 7513, respectively.

In the Cisco 7505, one slot (4) is reserved for the Route Switch Processor (RSP1), which contains
the system processor and performs packet switching functions. Slots 0 through 3 are for interface
processors.

Figure 4 Cisco 7505, Interface Processor End

wer switch

Chassis
grounding
receptacles

NORMAL

ENABLE

EJECT

SLOT 1

SLOT 0

CPU HALT

ENABLE

RESET

AUX.

ROUTE SWITCH PROCESSOR

CONSOLE

RSP slot
Interface processor slot 3

Interface processor slot 2
Interface processor slot 1

Interface processor slot 0

DC OK LED

H2761

Power receptacle AC-input power supply

VIP-FE-TX/4E Installation and Configuration 7

Versatile Interface Processor Functions

Figure 5 showsthe rear of the seven-slotCisco 7507 router.In the Cisco 7507, up to two slots (2 and

3) are reserved for the Route Switch Processor (RSP2), which contains the system processor and
performs packet switching functions. Slots 0 and 1 and 4 through 6 are for interface processors.

Figure 5 Cisco 7507, Interface Processor End

aptive

stallation screw

pper

wer supply

DC FAIL
AC POWER

NORMAL

ENABLE

hassis

ounding
ceptacles

aptive

stallation screw

wer
wer supply

DC FAIL
AC POWER

EJECT

SLOT 1

I

O

I

O

Slot 0

SLOT 0

MASTER

SLAVE

SLAVE/MASTER

CPU HALT

RESET

AUX.

ROUTE SWITCH PROCESSOR 2

CONSOLE

2

1

34 5 6

ENABLE

H3888

RSP slots

8 VIP-FE-TX/4E Installation and Configuration

Versatile Interface Processor Functions

Figure 6 shows the rear of the Cisco 7513 with two AC-input power supplies installed. Twoslots (6
and 7) are reserved for the second generation Route Switch Processor (RSP2), which contains the
system processor and performs packet switching functions. Slots 0 through 5 and 8 through 12 are
for interface processors.

Figure 6 Cisco 7513, Interface Processor End

Blower module

Cable-management

bracket

Card cage and

processor modules

Air intake vent

Power supplies

Chassis grounding

receptacles

POWER

A

NORMAL

EJECT

SLOT 1

SLOT 0

MASTER

SLAVE

SLAVE/MASTER

CPU HALT

RESET

AUX.

ROUTE SWITCH PROCESSOR 2

CONSOLE

AC

FAN

OUTPUT

OK

OK

FAIL

I

0

AC

FAN

OUTPUT

OK

OK

FAIL

I

0

ENABLE

ENABLE

POWER

B

H5268

VIP-FE-TX/4E Installation and Configuration 9

Versatile Interface Processor Functions

VIP Port Adapter Hardware Configuration Overview

The port adapters attach to the VIP motherboard. (See Figure 7.) Each port adapter contains the
physical connections for the VIP interface types to connect to your network.

Figure 7 VIP with One FE-TX and One 4E Port Adapter (Product Number VIP-FE-TX/4E[=])

Bus connector

Microcode
Flash U17

DRAM

SIMMs

FE-TX in
port adapter
slot 0

U2

MII

U1

0

LINK

FAST ETHERNET

RJ45

Following are the VIP port adapters by interface type:

• Ethernet 10BASE-T—4E

Port adapter
handles not shown

4E in port
adapter
slot 1

0

1

2

3

LINK

1

3

0

2

ETHERNET-10BT

H4711

• Fast Ethernet 100BASE-TX—FE-TX

• Synchronous serial—4T

• Token Ring—4R

Following are the supported electrical interfaces:

• 4E port adapter—10BASE-T Ethernet, using RJ-45

• FE-TX port adapter—IEEE 802.3u Fast Ethernet 100BASE-TX, using Media Independent

Interface (MII) or RJ-45

• 4T port adapter—synchronous serial (EIA/TIA-232, EIA-TIA-449, EIA-530, V.35, and X.21;

determined by the cable), using DB-60, 60-pin mini-D-sub connectors

• 4R port adapter—IEEE 802.5 Token Ring, using DB-9, 9-pin D-sub connectors

10 VIP-FE-TX/4E Installation and Configuration

Note The VIP-FE-TX/4E is a fixed configuration. The FE-TX and 4E port adapters are not

available as individual spare parts. The entire VIP-FE-TX/4E assembly is a FRU. The FE-TX and
4E port adapters have a handle attached, but this handle is not shown to allow a full view of detail
on each port adapter’s faceplate.

Caution To prevent system problems, do not remove port adapters from the VIP motherboard or

attempt to install other port adapters on the VIP motherboard.

VIP Microcode Overview

The VIP microcode(firmware) is an image thatprovides card-specific softwareinstructions. AFlash
memory device in socket U17 of the VIP contains the default microcode boot image. The router
supports downloadable microcode, which enables you to upgrade microcode versions by
downloading new microcode images, storing them in system Flash memory, and instructing the
system to load its image from Flash instead of the default VIP image. (The RP in the Cisco 7000 and
7010 loads software from ROMor Flash memory; the RSP loads software from Flash only.) Youcan
store multiple images for an interface type and, with a configuration command, instruct the system
to load any one of them or the default ROM image. All interfaces of the same type (VIP, and so on)
will load the same microcode image, either from the default ROM image or from a single image
stored in system Flash. Although multiple microcode versions for a specific interface type can be
stored concurrently in Flash, only one image can load at startup. The show controllers cbus
command displays the currently loaded and running microcode version for the SP or SSP (in the
Cisco 7000 series routers), each interface processor, and VIP. The show startup-config EXEC
command shows the current system instructions for loading microcode at startup.

Versatile Interface Processor Functions

Software and interface processor microcode images are carefully optimized and bundled to work
together.Overriding the bundle can result in system incompatibilities. Werecommend that you use
the microcode included in the software bundle. For a complete description of microcode and
downloading procedures, refer to the section “Upgrading VIP Microcode” on page 23.

VIP Installation Prerequisites

This section provides a list of parts and tools you will need to perform the installation, and it also
includes safety and ESD-prevention guidelines to help you avoid injury and damage to the
equipment. This section also providesa detailed description of the OIR function to help you perform
online installation successfully and avoid error message and system restarts. If you are installing a
new VIP, be sure to review the equipment descriptions and distance limitations in the section
“FE-TX Port Adapter Receptacles, Cables, and Pinouts” on page 33 when preparing your site and
planning network connections.

List of Parts and Tools

You need the following tools and parts to install a VIP. If you need additional equipment, contact a
service representative for ordering information.

• Cables appropriate for the port adapter interfaces on your VIP

• Number 1 Phillips and a 3/16-inch, flat-blade screwdriver

• Your own ESD-prevention equipment or the disposable grounding wrist strap included with all

upgrade kits, FRUs, and spares

VIP-FE-TX/4E Installation and Configuration 11

Versatile Interface Processor Functions

Safety Guidelines

Following are safety guidelines that you should follow when working with any equipment that
connects to electrical power or telephone wiring.

Electrical Equipment Guidelines

Follow these basic guidelines when working with any electrical equipment:

• Before beginning any procedures requiring access to the chassis interior, locate the emergency

power-off switch for the room in which you are working.

• Disconnect all power and external cables before moving a chassis.

• Do not work alone when potentially hazardous conditions exist.

• Never assume that power has been disconnected from a circuit; always check.

• Do not perform any action that creates a potential hazard to people or makes the equipment

unsafe.

• Carefully examine your work area for possible hazards such as moist floors, ungrounded power

extension cables, and missing safety grounds.

Telephone Wiring Guidelines

Use the following guidelines when working with any equipment that is connected to telephone
wiring or to other network cabling:

• Never install telephone wiring during a lightning storm.

• Never install telephone jacks in wet locations unless the jack is specifically designed for wet

locations.

• Never touch uninsulated telephone wires or terminals unless the telephone line has been

disconnected at the network interface.

• Use caution when installing or modifying telephone lines.

Preventing Electrostatic Discharge Damage

Electrostatic discharge (ESD) damage, which can occur when electronic cards or components are
improperly handled, results in complete or intermittent failures. A processor module comprises a
printed circuit board that is fixed in a metal carrier. Electromagnetic interference (EMI) shielding,
connectors, and a handle are integral components of the carrier.Although the metal carrier helps to
protect the board from ESD, use a preventiveantistatic strap wheneverhandling a processor module.

Following are guidelines for preventing ESD damage:

• Always use an ESD wrist or ankle strap and ensure that it makes good skin contact.

• Connect the equipment end of the strap to a captive installation screw on an installed power

supply.

• When installing a processor module, use the ejector leversto properly seat the bus connectors in

the backplane, thentighten bothcaptiveinstallation screws. (SeeFigure 8.) Thesescrews prevent
accidental removal, provide proper grounding for the system, and help to ensure that the bus
connectors are seated in the backplane.

• When removing a processor module, use the ejector leversto release the busconnectors from the

backplane. Use thehandle to pull the processor module outslowly while keepingyour other hand
underneath the carrier to guide it straight out of the slot.

12 VIP-FE-TX/4E Installation and Configuration

• Handle carriers by the handles and carrier edges only; avoid touching the board or connectors.

• Place a removed processor module board-side-up on an antistatic surface or in a static shielding

bag. If you plan to return the component to the factory, immediately place it in a static shielding
bag.

• Avoid contact betweenthe processor moduleand clothing. Thewrist strap onlyprotects the board

from ESD voltages on the body; ESD voltages on clothing can still cause damage.

• Never attempt to remove the printed circuit board from the metal interface processor carrier.

Caution For safety, periodically check the resistance value of the antistatic strap. The

measurement should be between 1 and 10 megohms.

Online Insertion and Removal—An Overview

The OIR feature allows you to remove and replace a VIP board while the system is operating; you
do not need to notify the software or shut down the system power.

Note The VIP port adapters themselves do not support OIR, nor are they FRUs.

Versatile Interface Processor Functions

This section describes mechanical functions of system components, emphasizes the importance of
following correct procedures to avoid unnecessary board failures, and is for background only;
specific VIP procedures follow in the section “VIP Installation” on page 16.

Each interface processor contains a receptacle with which it connects to the system backplane. Each
backplane connector comprises a set of tiered pins, in three lengths. The pins send specific signals
to the system as they make contact with the card. The system assesses the signals it receives and the
order in which it receives them to determine what event is occurring and what task it needs to
perform, such as reinitializing new interfaces or shutting down removed ones.

For example, when inserting an interface processor, the longest pins make contact with the
backplane first, and the shortest pins make contact last. The system recognizes the signals and the
sequence in which it receives them. The system expects to receive signals from the individual pins
in this logical sequence, and the ejector levers help to ensure that the pins mate in this sequence.

When you remove or insert an interface processor, the backplane pins send signals to notify the
system, which then performs as follows:

1 Rapidly scans the backplane for configuration changes and does not reset any interfaces.
2 Initializes all newly inserted interface processors, noting any removed interfaces and placing

them in the administratively shut down state.

3 Brings all previously configured interfaces on the interface processor back to the state they were

in when they were removed. Any newly inserted interfaces are put in the administratively shut
downstate, as iftheywere present (butunconfigured) at boottime. If asimilar interface processor
type has been reinserted into a slot, then its ports are configured and brought on line up to the
port count of the original interface processor.

VIP-FE-TX/4E Installation and Configuration 13

Versatile Interface Processor Functions

The system brings on line only interfaces that match the current configuration and were previously
configured as up; all others require that you configure them with the configure command. OIR
functionality enables you to add, remove, or replace interface processors with the system online,
which provides a method that is seamless to end users on the network, maintains all routing
information, and ensures session preservation.

The function of the ejector levers (see Figure 8) is to align and seat the card connectors in the
backplane. Failure touse theejector leversand insert the interface processorproperly can disrupt the
order in whichthe pinsmake contact with the cardor interfaceprocessor.Followthe VIP installation
and removal instructions carefully, and review the following examples of incorrect insertion
practices and their results:

• Using the handle to force the interface processor all the way into the slot can pop the ejector

levers out of their springs. If you then try to use the ejector levers to seat the interface processor,
the first layer of pins (which are already mated to the card or interface processor) can disconnect
and then remate with the backplane, which the system interprets as a board failure.

• Using the handle to force or slam the interface processor all the way into the slot can damage the

pins on the board connectors if they are not aligned properly with the backplane.

• When using the handle (rather than the ejector levers) to seat the interface processor in the

backplane, you might need to pull the interface processor back out and push it in again to align
it properly. Even if the backplane pins are not damaged, the pins mating with and disconnecting
from the card or interface processor will cause the system to interpret a board failure. Using the
ejector levers ensures that the board connector mates with the backplane in one continuous
movement.

• Using the handle to insert or remove an interface processor, or failing to push the ejector levers

fully against the interface processor, can leave some (not all) of the connector pins mated to the
card or interface processor, a state which will hang the system. Using the ejector levers and
making sure that theyare pushedfully into position ensures thatall three layers of pins are mated
with (or free from) the backplane.

It is also important to use the ejector levers when removing an interface processor to ensure that the
backplane connector pins disconnect from the card or interface processor in the logical sequence
expectedby the system. Any interfaceprocessor that is only partially connected to the backplanecan
hang the bus. Detailed steps for correctly performing OIR are included with the following
procedures for installing and removing the VIP.

14 VIP-FE-TX/4E Installation and Configuration

Versatile Interface Processor Functions

Figure 8 Ejector Levers and Captive Installation Screws on the VIP (Horizontal Orientation Shown)

Interface processor
card slot

Ejector
lever

Interface processor card
carrier guide (black)

a

Captive
installation
screw

c

b

H1984

Note The VIP is oriented horizontally in the Cisco 7010 and Cisco 7505 and verticallyin the Cisco

7000, Cisco 7507, and Cisco 7513.

VIP-FE-TX/4E Installation and Configuration 15

Versatile Interface Processor Functions

VIP Installation

The following sections describe the procedures for removing or installing a VIP in the Cisco 7000
series and Cisco 7500 series routers. The functionality is the same for each router model; therefore,
the term the chassis will be used except where specific model issues arise. The OIR function allows
you to install and remove a VIP without first shutting down the system; however, you must follow
the instructions carefully. Failure to insert the VIP properly can cause system error messages
indicating a board failure. For a complete description of OIR, refer to the section “Online Insertion
and Removal—An Overview” on page 13.

Each unused interface processor slot contains an interface processor filler (which is an interface
processor carrier without an interface board) to keep dust out of the chassis and to maintain proper
air flow through the interface processor compartment. If you are installing a new VIP that is not a
replacement, you must first remove the interface processor filler from an unused slot; proceed to the
next section “Removing an Interface Processor Filler.” If you are replacing a VIP or upgrading the
microcode Flash EPROM on a VIP, proceed to the section “Removing a VIP.”

Note If you suspect that a port adapter has failed, you must replace the entire VIP processor

module. Port adapters are not available as FRUs.

Caution If you use the VIP with a single port adapter, the port adapter must be in slot 0 for the VIP

to function properly. A single port adapter in slot 1 will not be recognized by the system.

Removing an Interface Processor Filler

Select an unused interface processor slot for the new VIP and remove the interface processor filler
as follows:

Step 1 Choose an available slot for the VIP and make a note of it.
Step 1 Use a screwdriver to loosen the captive installation screws on the interface processor filler.

(See Figure 8.)

Step 2 Place your thumbs on both ejector levers and simultaneously pull them both outward to

release the VIP from the backplane connector (in the opposite direction from that shown in
Figure 8c).

Step 3 Grasp the handlewith onehand and pull the filler straight outof theslot, keeping your other

hand under the carrier to guide it. (See Figure 9.) Keepthe carrier parallel to the backplane.

Step 4 Store the interface processor filler for future use.

To help prevent dust andcontaminants fromentering the chassis, do not leave the interface processor
slot open. Immediately proceed to the section “Installing a VIP” on page 18.

Removing a VIP

Remember, the VIP supports OIR; therefore, you need not shut down the interface or the system
power when removing a VIP.If you are replacing a failed VIP, remove the existing board first, then
replace the new VIP in the same slot.

16 VIP-FE-TX/4E Installation and Configuration

Versatile Interface Processor Functions

Figure 9 shows proper handling of an interface processor during installation.

Figure 9 Handling Processor Modules for Installation and Removal (Horizontal Orientation Shown)

H4714

Captive installation
screws

To remove a VIP, follow these steps:

Step 1 If you are replacing a failed VIP, disconnect all cables from the VIP ports; however, if you

are only moving a VIP to another slot, this step is not necessary.

Step 2 Use a screwdriver to loosen the captive installation screws at both ends of the VIP.

(See Figure 8.)

Caution Always use the ejector levers to remove or install the VIP. Failure to do so can cause

erroneous system error messages indicating a board failure.

Step 3 Place your thumbs on the ejector levers and simultaneously pull both of the ejectors

outward (in the opposite direction from that show in Figure 8c) to release the VIP from the
backplane connector.

Step 4 Use the VIP handle to carefully pull the VIP straight out of the slot, keeping your other

hand under the carrier to guide it. (See Figure 9.) Keep the VIP parallel to the backplane.

Step 5 Place the removed VIP on an antistatic mat or foam pad, or place it in an antistatic bag if

you plan to return it to the factory.

Step 6 If the interface processor slot is to remain empty, install a filler (MAS7K-BLANK) to keep

dust out of the chassis and to maintain proper air flow inside the chassis. Do not leave the
interface processor slot open. Immediately proceed to the section “Installing a VIP.”

VIP-FE-TX/4E Installation and Configuration 17

Versatile Interface Processor Functions

Installing a VIP

The VIP slides into the open interface processor slot and connects directly to the backplane. The
interface processors are keyed to guide pins on the backplane, so the VIP can be installed only in an
interface processor slot. Figure 8 shows the functional details ofinserting an interface processor and
usingthe ejector levers.Figure 9 shows proper handling of aninterface processor duringinstallation.

Caution Remove or insert only one interface processor at a time. Allow at least 15 seconds for the

system to complete its discovery and initialization before removing or inserting another interface
processor. Disrupting the sequence before the system has completed verification can cause the
system to interpret hardware failures.

Follow these steps to install a VIP:

Step 1 Ensure that a console terminal is connected to the console port (on the RP or RSP) and that

your console is turned ON.

Step 2 Hold the VIP handle with one hand and place your other hand under the carrier to support

the VIP and guide it into the slot. (See Figure 9.) Avoid touching the card or any connector
pins.

Caution To prevent ESD damage, handle interface processors by the handles and carrier edges

only.

Note The processor modules are oriented horizontally in the Cisco 7010 and Cisco 7505, and

vertically in the Cisco 7000, the Cisco 7507, and the Cisco 7513.

Step 3 Place the back of the VIP in the slot and align the notch on the carrier with the groove in

the slot. (See Figure 8.)

Step 4 Whilekeeping the VIP parallel tothe backplane, carefullyslide it into the slotuntil the back

of the faceplate makes contact with the ejector levers, then stop. (See Figure 8b.)

Caution Always use the ejector levers when installing or removing processor modules. A module

that is partially seated in the backplane will cause the system to hang and subsequently crash, and
shoving or slamming the interface processor into the slot can damage the backplane pins and board.

Step 5 Using your thumbs, simultaneously push both ejector levers inward until the VIP is pushed

entirely into its slot. (See Figure 8c.)

Step 6 To ensure that EMI shielding is properly maintained for the chassis, immediately tighten

both of the captive installation screws.

18 VIP-FE-TX/4E Installation and Configuration