Module 1: Basic Device Configuration
•Instructor Materials
Switching, Routing and Wireless Essentials v7.0 (SRWE)

Cisco Networking Academy Program
Switching, Routing and Wireless Essentials v7.0 (SRWE)
Module 1: Basic Device Configuration

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Instructor Materials – Module 1 Planning Guide
•This PowerPoint deck is divided in two parts:
•Instructor Planning Guide
•Information to help you become familiar with the module
•Teaching aids
•Instructor Class Presentation
•Optional slides that you can use in the classroom
•Begins on slide # 10
•Note: Remove the Planning Guide from this presentation before sharing with anyone.
•For additional help and resources go to the Instructor Home Page and Course Resources for this
course. You also can visit the professional development site on netacad.com, the official Cisco
Networking Academy Facebook page, or Instructor Only FB group.

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§To facilitate learning, the following features within the GUI may be included in this module:
§
§
•
What to Expect in this Module
Feature
Description
Animations
Expose learners to new skills and concepts.
Videos
Expose learners to new skills and concepts.
Check Your Understanding(CYU)
Per topic online quiz to help learners gauge content understanding.
Interactive Activities
A variety of formats to help learners gauge content understanding.
Syntax Checker
Small simulations that expose learners to Cisco command line to practice configuration skills.
PT Activity
Simulation and modeling activities designed to explore, acquire, reinforce, and expand skills.

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Feature
Description
Hands-On Labs
Labs designed for working with physical equipment.
Class Activities
These are found on the Instructor Resources page. Class Activities are designed to facilitate
learning, class discussion, and collaboration.
Module Quizzes
Self-assessments that integrate concepts and skills learned throughout the series of topics
presented in the module.
Module Summary
Briefly recaps module content.
What to Expect in this Module (Cont.)
§To facilitate learning, the following features may be included in this module:

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Check Your Understanding
•Check Your Understanding activities are designed to let students quickly determine if they
understand the content and can proceed, or if they need to review.
•Check Your Understanding activities do not affect student grades.
•There are no separate slides for these activities in the PPT. They are listed in the notes area of
the slide that appears before these activities.
•
§

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Module 1: Activities
•What activities are associated with this module?
•
•
•
Page #
Activity Type
Activity Name
Optional?
1.1.7
Lab
Basic Switch Configuration
Recommended
1.2.9
Syntax Checker
Configure Switch Ports
Recommended
1.3.6
Packet Tracer
Configure SSH
Recommended
1.4.2
Syntax Checker
Configure Basic Router Settings
Recommended
1.4.5
Syntax Checker
Configure Router Interfaces
Recommended
1.4.7
Packet Tracer
Configure Router Interfaces
Recommended
1.5.7
Syntax Checker
Filter Show Command Output
Recommended
1.5.9
Syntax Checker
Command History Features
Recommended

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Module 1: Activities (Cont.)
•What activities are associated with this module?
•
•
•
Page #
Activity Type
Activity Name
Optional?
1.5.10
Packet Tracer
Verify Directly Connected Networks
Recommended
1.5.11
Check Your Understanding
Verify Directly Connected Networks
Recommended
1.6.1
Packet Tracer
Implement a Small Network
Recommended
1.6.2
Lab
Configure Basic Router Settings
Recommended

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Module 1: Best Practices
•Prior to teaching Module 1, the instructor should:
•Review the activities and assessments for this module.
•Try to include as many questions as possible to keep students engaged during classroom
presentation.
•Topic 1.1
•Ask the students or have a class discussion
•Why do you think it is important to have the ability to designate a different IOS to boot from?
•Why is having the ability to remotely manage a switch so critical?
•Topic 1.2
•Ask the students or have a class discussion
•When do you think you might see a half-duplex connection in modern networks?
•Why do you think half-duplex connections are supported by modern devices and operating systems?
•
•
•
•
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•
•
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Module 1: Best Practices (Cont.)
•Topic 1.3
•Ask the students or have a class discussion
•Telnet is not secure. Why do you think it is still supported and used?
•Why do you think SSH version 2 is preferred over SSH version 1?
•Topic 1.4
•Ask the students or have a class discussion
•What is the purpose of the Message-Of-The-Day banner?
•What makes a loopback interface so versatile and useful?
•Topic 1.5
•Ask the students or have a class discussion
•What indicator do you have that an interface with an IPv6 address assigned is operational?
•In what scenario might you find yourself using the history buffer?
•
•
•
§
•
§
§
•
•
§
§

Module 1: Basic Device Configuration
Switching, Routing and Wireless Essentials v7.0 (SRWE)

Cisco Networking Academy Program
Switching, Routing and Wireless Essentials v7.0 (SRWE)
Module 1: Basic Device Configuration

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© 2016  Cisco and/or its affiliates. All rights reserved.   Cisco Confidential
Module Objectives
•Module Title: Basic Device Configuration
•
•Module Objective: Configure devices using security best practices.
§
Topic Title
Topic Objective
Configure a Switch with Initial Settings
Configure initial settings on a Cisco switch.
Configure Switch Ports
Configure switch ports to meet network requirements.
Secure Remote Access
Configure secure management access on a switch.
Basic Router Configuration
Configure basic settings on a router to route between two directly-connected networks, using CLI.
Verify Directly Connected Networks
Verify connectivity between two networks that are directly connected to a router.

1.0 Introduction
1.0.2 What will I learn to do in this module?

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1.1 Configure a Switch with Initial Settings

1- Basic Device Configuration
1.1 – Configure a Switch with Initial Settings

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Configure a Switch with Initial Settings
Switch Boot Sequence
•After a Cisco switch is powered on, it goes through the following five-step boot sequence:
•Step 1: First, the switch loads a power-on self-test (POST) program stored in ROM. POST checks the
CPU subsystem. It tests the CPU, DRAM, and the portion of the flash device that makes up the flash
file system.
•Step 2: Next, the switch loads the boot loader software. The boot loader is a small program stored
in ROM that is run immediately after POST successfully completes.
•Step 3: The boot loader performs low-level CPU initialization. It initializes the CPU registers,
which control where physical memory is mapped, the quantity of memory, and its speed.
•Step 4: The boot loader initializes the flash file system on the system board.
•Step 5: Finally, the boot loader locates and loads a default IOS operating system software image
into memory and gives control of the switch over to the IOS.
•

1 – Basic Device Configuration
1.1. – Configure a Switch with Initial Settings
1.1.1 – Switch Boot Sequence

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Configure a Switch with Initial Settings
The boot system Command
•The switch attempts to automatically boot by using information in the BOOT environment variable.
If this variable is not set, the switch attempts to load and execute the first executable file it
can find.
•The IOS operating system then initializes the interfaces using the Cisco IOS commands found in the
startup-config file. The startup-config file is called config.text and is located in flash.
•In the example, the BOOT environment variable is set using the boot system global configuration
mode command. Notice that the IOS is located in a distinct folder and the folder path is specified.
Use the command show boot to see what the current IOS boot file is set to.
Command
Definition
boot system
The main command
flash:
The storage device
c2960-lanbasek9-mz.150-2.SE/
The path to the file system
c2960-lanbasek9-mz.150-2.SE.bin
The IOS file name

1 – Basic Device Configuration
1.1. – Configure a Switch with Initial Settings
1.1.2  - The boot system Command

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Switch LED Indicators
System LED (SYST): Shows whether the system is receiving power and functioning properly.
Redundant Power Supply LED (RPS): Shows the RPS status.
Port Status LED (STAT): When green, indicates port status mode is selected, which is the default.
Port status can then be understood by the light associated with each port.
Port Duplex LED (DUPLX): When green, indicates port duplex mode is selected. Port duplex can then
be understood by the light associated with each port.
Port Speed LED (SPEED): When green, indicates port speed mode is selected. Port speed can then be
understood by the light associated with each port.
Power over Ethernet LED (PoE): Present if the switch supports PoE. Indicates the PoE status of
ports on the switch.
The Mode button is used to move between the different modes – STAT, DUPLX, SPEED, and PoE

1 – Basic Device Configuration
1.1. – Configure a Switch with Initial Settings
1.1.3 – Switch LED Indicators

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Switch LED Indicators (Cont.)
Off
Green
Blinking Green
Amber
Blinking Amber
Alternating Green/Amber
RPS
Off/No RPS
RPS ready
RPS up but not available
RPS standby or fault
Internal PS failed, RPS providing power
N/A
PoE
Not selected, no issues
Selected
N/A
N/A
Not selected, port issues present
N/A
When the named mode is selected, the light associated with each physical port indicates:
STAT
No link or shutdown
Link Up
Activity
Port blocked preventing loop
Port blocked preventing loop
Link fault
DUPLEX
Half-duplex
Full-duplex
N/A
N/A
N/A
N/A
SPEED
10Mbps
100Mbps
1000Mbps
N/A
N/A
N/A
PoE
PoE off
PoE on
N/A
PoE disabled
PoE off due to fault
PoE denied (over budget)

1 – Basic Device Configuration
1.1. – Configure a Switch with Initial Settings
1.1.3 – Switch LED Indicators (Cont.)

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Recovering from a System Crash
•The boot loader provides access into the switch if the operating system cannot be used because of
missing or damaged system files. The boot loader has a command line that provides access to the
files stored in flash memory. The boot loader can be accessed through a console connection
following these steps:
•Step 1. Connect a PC by console cable to the switch console port. Configure terminal emulation
software to connect to the switch.
•Step 2. Unplug the switch power cord.
•Step 3. Reconnect the power cord to the switch and, within 15 seconds, press and hold down
the Mode button while the System LED is still flashing green.
•Step 4. Continue pressing the Mode button until the System LED turns briefly amber and then solid
green; then release the Mode button.
•Step 5. The boot loader switch: prompt appears in the terminal emulation software on the PC.
•The boot loader command line supports commands to format the flash file system, reinstall the
operating system software, and recover a lost or forgotten password. For example, the dir command
can be used to view a list of files within a specified directory.
•

1 – Basic Device Configuration
1.1. – Configure a Switch with Initial Settings
1.1.4 – Recovering from a System Crash

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Configure a Switch with Initial Settings
Switch Management Access
•To prepare a switch for remote management access, the switch must be configured with an IP address
and a subnet mask.
•To manage the switch from a remote network, the switch must be configured with a default gateway.
This is very similar to configuring the IP address information on host devices.
•In the figure, the switch virtual interface (SVI) on S1 should be assigned an IP address. The SVI
is a virtual interface, not a physical port on the switch. A console cable is used to connect to a
PC so that the switch can be initially configured.

1 – Basic Device Configuration
1.1. – Configure a Switch with Initial Settings
1.1.5 – Switch Management Access

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Configure a Switch with Initial Settings
Switch SVI Configuration Example
•By default, the switch is configured to have its management controlled through VLAN 1. All ports
are assigned to VLAN 1 by default. For security purposes, it is considered a best practice to use a
VLAN other than VLAN 1 for the management VLAN,
•Step 1: Configure the Management Interface: From VLAN interface configuration mode, an IPv4
address and subnet mask is applied to the management SVI of the switch.
•
•Note: The SVI for VLAN 99 will not appear as “up/up” until VLAN 99 is created and there is a
device connected to a switch port associated with VLAN 99.
•
•Note: The switch may need to be configured for IPv6. For example, before you can configure IPv6
addressing on a Cisco Catalyst 2960 running IOS version 15.0, you will need to enter the global
configuration command sdm prefer dual-ipv4-and-ipv6 default and then reload the switch.
•

1 – Basic Device Configuration
1.1. – Configure a Switch with Initial Settings
1.1.6 – Switch SVI Configuration Example

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Configure a Switch with Initial Settings
Switch SVI Configuration Example (Cont.)
Task
IOS Commands
Enter global configuration mode.
S1# configure terminal
Enter interface configuration mode for the SVI.
S1(config)# interface vlan 99
Configure the management interface IPv4 address.
S1(config-if)# ip address 172.17.99.11 255.255.255.0
Configure the management interface IPv6 address
S1(config-if)# ipv6 address 2001:db8:acad:99::1/64
Enable the management interface.
S1(config-if)# no shutdown
Return to the privileged EXEC mode.
S1(config-if)# end
Save the running config to the startup config.
S1# copy running-config startup-config

1 – Basic Device Configuration
1.1. – Configure a Switch with Initial Settings
1.1.6 – Switch SVI Configuration Example (Cont.)

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Configure a Switch with Initial Settings
Switch SVI Configuration Example (Cont.)
•Step 2: Configure the Default Gateway
•The switch should be configured with a default gateway if it will be managed remotely from
networks that are not directly connected.
•Note: Because, it will receive its default gateway information from a router advertisement (RA)
message, the switch does not require an IPv6 default gateway.
•
Task
IOS Commands
Enter global configuration mode.
S1# configure terminal
Configure the default gateway for the switch.
S1(config)# ip default-gateway 172.17.99.1
Return to the privileged EXEC mode.
S1(config-if)# end
Save the running config to the startup config.
S1# copy running-config startup-config

1 – Basic Device Configuration
1.1. – Configure a Switch with Initial Settings
1.1.6 – Switch SVI Configuration Example (Cont.)

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Configure a Switch with Initial Settings
Switch SVI Configuration Example (Cont.)
•Step 3: Verify Configuration
•The show ip interface brief and show ipv6 interface brief commands are useful for determining the
status of both physical and virtual interfaces. The output shown confirms that interface VLAN 99
has been configured with an IPv4 and IPv6 address.
•Note: An IP address applied to the SVI is only for remote management access to the switch; this
does not allow the switch to route Layer 3 packets.
•

1 – Basic Device Configuration
1.1. – Configure a Switch with Initial Settings
1.1.6 – Switch SVI Configuration Example (Cont.)

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Configure a Switch with Initial Settings
Lab – Basic Switch Configuration
•In this lab, you will complete the following objectives:
•Part 1: Cable the Network and Verify the Default Switch Configuration
•Part 2: Configure Basic Network Device Settings
•Part 3: Verify and Test Network Connectivity
•Part 4: Manage the MAC Address Table
•

1 – Basic Device Configuration
1.1. – Configure a Switch with Initial Settings
1.1.7 – Lab – Basic Switch Configuration

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1.2 Configure Switch Ports

1- Basic Device Configuration
1.2 – Configure Switch Ports

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Configure Switch Ports
Duplex Communication
•Full-duplex communication increases bandwidth efficiency by allowing both ends of a connection to
transmit and receive data simultaneously. This is also known as bidirectional communication and it
requires microsegmentation.
•A microsegmented LAN is created when a switch port has only one device connected and is operating
in full-duplex mode. There is no collision domain associated with a switch port operating in
full-duplex mode.
•Unlike full-duplex communication, half-duplex communication is unidirectional. Half-duplex
communication creates performance issues because data can flow in only one direction at a time,
often resulting in collisions.
•Gigabit Ethernet and 10 Gb NICs require full-duplex connections to operate. In full-duplex mode,
the collision detection circuit on the NIC is disabled. Full-duplex offers 100 percent efficiency
in both directions (transmitting and receiving). This results in a doubling of the potential use of
the stated bandwidth.

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.1 – Duplex Communication

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Configure Switch Ports
Configure Switch Ports at the Physical Layer
•Switch ports can be manually configured with specific duplex and speed settings. The respective
interface configuration commands are duplex and speed.
•The default setting for both duplex and speed for switch ports on Cisco Catalyst 2960 and 3560
switches is auto. The 10/100/1000 ports operate in either half- or full-duplex mode when they are
set to 10 or 100 Mbps and operate only in full-duplex mode when it is set to 1000 Mbps (1 Gbps).
•Autonegotiation is useful when the speed and duplex settings of the device connecting to the port
are unknown or may change. When connecting to known devices such as servers, dedicated
workstations, or network devices, a best practice is to manually set the speed and duplex settings.
•When troubleshooting switch port issues, it is important that the duplex and speed settings are
checked.
•Note: Mismatched settings for the duplex mode and speed of switch ports can cause connectivity
issues. Autonegotiation failure creates mismatched settings.
•
•All fiber-optic ports, such as 1000BASE-SX ports, operate only at one preset speed and are always
full-duplex
•

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.2 – Configure Switch Ports at the Physical Layer

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Configure Switch Ports
Configure Switch Ports at the Physical Layer (Cont.)
Task
IOS Commands
Enter global configuration mode.
S1# configure terminal
Enter interface configuration mode.
S1(config)# interface FastEthernet 0/1
Configure the interface duplex.
S1(config-if)# duplex full
Configure the interface speed.
S1(config-if)# speed 100
Return to the privileged EXEC mode.
S1(config-if)# end
Save the running config to the startup config.
S1# copy running-config startup-config

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.2 – Configure Switch Ports at the Physical Layer (Cont.)

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Configure Switch Ports
Auto-MDIX
•When automatic medium-dependent interface crossover (auto-MDIX) is enabled, the switch interface
automatically detects the required cable connection type (straight-through or crossover) and
configures the connection appropriately.
•When connecting to switches without the auto-MDIX feature, straight-through cables must be used to
connect to devices such as servers, workstations, or routers. Crossover cables must be used to
connect to other switches or repeaters.
•With auto-MDIX enabled, either type of cable can be used to connect to other devices, and the
interface automatically adjusts to communicate successfully.
•On newer Cisco switches, the mdix auto interface configuration mode command enables the feature.
When using auto-MDIX on an interface, the interface speed and duplex must be set to auto so that
the feature operates correctly.
•Note: The auto-MDIX feature is enabled by default on Catalyst 2960 and Catalyst 3560 switches but
is not available on the older Catalyst 2950 and Catalyst 3550 switches.
•To examine the auto-MDIX setting for a specific interface, use the show controllers
ethernet-controller command with the phy keyword. To limit the output to lines referencing
auto-MDIX, use the include Auto-MDIX filter.
•
•

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.3 – Auto-MDIX

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Configure Switch Ports
Switch Verification Commands
Task
IOS Commands
Display interface status and configuration.
S1# show interfaces [interface-id]
Display current startup configuration.
S1# show startup-config
Display current running configuration.
S1# show running-config
Display information about flash file system.
S1# show flash
Display system hardware and software status.
S1# show version
Display history of command entered.
S1# show history
Display IP information about an interface.
S1# show ip interface [interface-id]
OR
S1# show ipv6 interface [interface-id]
Display the MAC address table.
S1# show mac-address-table
OR
S1# show mac address-table

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.4 – Switch Verification Commands

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Configure Switch Ports
Verify Switch Port Configuration
•The show running-config command can be used to verify that the switch has been correctly
configured. From the sample abbreviated output on S1, some important information is shown in the
figure:
•Fast Ethernet 0/18 interface configured with the management VLAN 99
•VLAN 99 configured with an IPv4 address of 172.17.99.11 255.255.255.0
•Default gateway set to 172.17.99.1
•

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.5 – Verify Switch Port Configuration

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Configure Switch Ports
Verify Switch Port Configuration (Cont.)
•The show interfaces command is another commonly used command, which displays status and statistics
information on the network interfaces of the switch. The show interfaces command is frequently used
when configuring and monitoring network devices.
•
•The first line of the output for the show interfaces fastEthernet 0/18 command indicates that the
FastEthernet 0/18 interface is up/up, meaning that it is operational. Further down, the output
shows that the duplex is full and the speed is 100 Mbps.
•

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.5 – Verify Switch Port Configuration (Cont.)

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Configure Switch Ports
Network Access Layer Issues
•The output from the show interfaces command is useful for detecting common media issues. One of
the most important parts of this output is the display of the line and data link protocol status,
as shown in the example.
•The first parameter (FastEthernet0/18 is up) refers to the hardware layer and indicates whether
the interface is receiving a carrier detect signal. The second parameter (line protocol is up)
refers to the data link layer and indicates whether the data link layer protocol keepalives are
being received. Based on the output of the show interfaces command, possible problems can be fixed
as follows:
•If the interface is up and the line protocol is down, a problem exists. There could be an
encapsulation type mismatch, the interface on the other end could be error-disabled, or there could
be a hardware problem.
•If the line protocol and the interface are both down, a cable is not attached, or some other
interface problem exists. For example, in a back-to-back connection, the other end of the
connection may be administratively down.
•If the interface is administratively down, it has been manually disabled (the shutdown command has
been issued) in the active configuration.
•

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.6 – Network Access Layer Issues

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Configure Switch Ports
Network Access Layer Issues (Cont.)
•The show interfaces command output displays counters and statistics for the FastEthernet0/18
interface, as shown here:

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.6 – Network Access Layer Issues (Cont.)

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Configure Switch Ports
Network Access Layer Issues (Cont.)
Some media errors are not severe enough to cause the circuit to fail but do cause network
performance issues. The table explains some of these common errors which can be detected using
the show interfaces command.
Error Type
Description
Input Errors
Total number of errors. It includes runts, giants, no buffer, CRC, frame, overrun, and ignored
counts.
Runts
Packets that are discarded because they are smaller than the minimum packet size for the medium.
For instance, any Ethernet packet that is less than 64 bytes is considered a runt.
Giants
Packets that are discarded because they exceed the maximum packet size for the medium. For example,
any Ethernet packet that is greater than 1,518 bytes is considered a giant.
CRC
CRC errors are generated when the calculated checksum is not the same as the checksum received.
Output Errors
Sum of all errors that prevented the final transmission of datagrams out of the interface that is
being examined.
Collisions
Number of messages retransmitted because of an Ethernet collision.
Late Collisions
A collision that occurs after 512 bits of the frame have been transmitted

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.6 – Network Access Layer Issues (Cont.)

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Configure Switch Ports
Interface Input and Output Errors
•“Input errors” is the sum of all errors in datagrams that were received on the interface being
examined. This includes runts, giants, CRC, no buffer, frame, overrun, and ignored counts. The
reported input errors from the show interfaces command include the following:
•Runt Frames - Ethernet frames that are shorter than the 64-byte minimum allowed length are called
runts. Malfunctioning NICs are the usual cause of excessive runt frames, but they can also be
caused by collisions.
•Giants - Ethernet frames that are larger than the maximum allowed size are called giants.
•CRC errors - On Ethernet and serial interfaces, CRC errors usually indicate a media or cable
error. Common causes include electrical interference, loose or damaged connections, or incorrect
cabling. If you see many CRC errors, there is too much noise on the link and you should inspect the
cable. You should also search for and eliminate noise sources.
•

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.7 – Interface Input and Output Errors

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Configure Switch Ports
Interface Input and Output Errors (Cont.)
•“Output errors” is the sum of all errors that prevented the final transmission of datagrams out
the interface that is being examined. The reported output errors from the show interfaces command
include the following:
•Collisions - Collisions in half-duplex operations are normal. However, you should never see
collisions on an interface configured for full-duplex communication.
•Late collisions - A late collision refers to a collision that occurs after 512 bits of the frame
have been transmitted. Excessive cable lengths are the most common cause of late collisions.
Another common cause is duplex misconfiguration.

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.7 – Interface Input and Output Errors (Cont.)

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Configure Switch Ports
Troubleshooting Network Access Layer Issues
To troubleshoot scenarios involving no connection, or a bad connection, between a switch and
another device, follow the general process shown in the figure.

1 – Basic Device Configuration
1.2 – Configure Switch Ports
1.2.8 – Troubleshooting Network Access Layer Issues
1.2.9 – Syntax Checker – Configure Switch Ports

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1.3 Secure Remote Access

1- Basic Device Configuration
1.3 – Secure Remote Access

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Secure Remote Access
Telnet Operation
•Telnet uses TCP port 23. It is an older protocol that uses unsecure plaintext transmission of both
the login authentication (username and password) and the data transmitted between the communicating
devices.
•A threat actor can monitor packets using Wireshark. For example, in the figure the threat actor
captured the username admin and password ccna from a Telnet session.

1 – Basic Device Configuration
1.3 – Secure Remote Access
1.3.1 – Telnet Operation

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Secure Remote Access
SSH Operation
•Secure Shell (SSH) is a secure protocol that uses TCP port 22. It provides a secure (encrypted)
management connection to a remote device. SSH should replace Telnet for management connections. SSH
provides security for remote connections by providing strong encryption when a device is
authenticated (username and password) and also for the transmitted data between the communicating
devices.
•
•The figure shows a Wireshark capture of an SSH session. The threat actor can track the session
using the IP address of the administrator device. However, unlike Telnet, with SSH the username and
password are encrypted.
•

1 – Basic Device Configuration
1.3 – Secure Remote Access
1.3.2 – SSH Operation

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Secure Remote Access
Verify the Switch Supports SSH
•To enable SSH on a Catalyst 2960 switch, the switch must be using a version of the IOS software
including cryptographic (encrypted) features and capabilities. Use the show version command on the
switch to see which IOS the switch is currently running. An IOS filename that includes the
combination “k9” supports cryptographic (encrypted) features and capabilities.
•
•The example shows the output of the show version command.

1 – Basic Device Configuration
1.3 – Secure Remote Access
1.3.3 – Verify the Switch Supports SSH

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Secure Remote Access
Configure SSH
•Before configuring SSH, the switch must be minimally configured with a unique hostname and the
correct network connectivity settings.
•Step 1: Verify SSH support - Use the show ip ssh command to verify that the switch supports SSH.
If the switch is not running an IOS that supports cryptographic features, this command is
unrecognized.
•Step 2: Configure the IP domain - Configure the IP domain name of the network using the ip
domain-name domain-name global configuration mode command.
•Step 3: Generate RSA key pairs - Generating an RSA key pair automatically enables SSH. Use
the crypto key generate rsa global configuration mode command to enable the SSH server on the
switch and generate an RSA key pair.
•Note: To delete the RSA key pair, use the crypto key zeroize rsa global configuration mode
command. After the RSA key pair is deleted, the SSH server is automatically disabled.
•Step 4: Configure user authentication - The SSH server can authenticate users locally or using an
authentication server. To use the local authentication method, create a username and password pair
using the username username secret password global configuration mode command.
•Step 5: Configure the vty lines - Enable the SSH protocol on the vty lines by using the transport
input ssh line configuration mode command. Use the line vty global configuration mode command and
then the login local line configuration mode command to require local authentication for SSH
connections from the local username database.
•Step 6: Enable SSH version 2 - By default, SSH supports both versions 1 and 2. When supporting
both versions, this is shown in the show ip ssh output as supporting version 2. Enable SSH version
using the ip ssh version 2 global configuration command.
•
•

1 – Basic Device Configuration
1.3 – Secure Remote Access
1.3.4 – Configure SSH

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Secure Remote Access
Verify SSH is Operational
•On a PC, an SSH client such as PuTTY, is used to connect to an SSH server. For example, assume the
following is configured:
•SSH is enabled on switch S1
•Interface VLAN 99 (SVI) with IPv4 address 172.17.99.11 on switch S1
•PC1 with IPv4 address 172.17.99.21
•Using a terminal emulator, initiate an SSH connection to the SVI VLAN IPv4 address of S1 from PC1.
•When connected, the user is prompted for a username and password as shown in the example. Using
the configuration from the previous example, the username admin and password ccna are entered.
After entering the correct combination, the user is connected via SSH to the command line interface
(CLI) on the Catalyst 2960 switch.
•

1 – Basic Device Configuration
1.3 – Secure Remote Access
1.3.5 – Verify SSH is Operational

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Secure Remote Access
Verify SSH is Operational (Cont.)
•To display the version and configuration data for SSH on the device that you configured as an SSH
server, use the show ip ssh command. In the example, SSH version 2 is enabled.

1 – Basic Device Configuration
1.3 – Secure Remote Access
1.3.5 – Verify SSH is Operational (Cont.)

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Secure Remote Access
Packet Tracer – Configure SSH
•In this Packet Tracer, you will do the following:
•Secure passwords
•Encrypt communications
•Verify SSH implementation

1 – Basic Device Configuration
1.3 – Secure Remote Access
1.3.6 – Packet Tracer – Configure SSH

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1.4 Basic Router Configuration

1- Basic Device Configuration
1.4 – Basic Router Configuration

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Basic Router Configuration
Configure Basic Router Settings
•Cisco routers and Cisco switches have many similarities. They support a similar modal operating
system, similar command structures, and many of the same commands. In addition, both devices have
similar initial configuration steps. For example, the following configuration tasks should always
be performed. Name the device to distinguish it from other routers and configure passwords, as
shown in the example.

1 – Basic Device Configuration
1.4 – Basic Router Configuration
1.4.1 – Configure Basic Router Settings

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Basic Router Configuration
Configure Basic Router Settings (Cont.)
•Configure a banner to provide legal notification of unauthorized access, as shown in the example.
Save the changes on a router, as shown in the example.

1 – Basic Device Configuration
1.4 – Basic Router Configuration
1.4.1 – Configure Basic Router Settings (Cont.)
1.4.2 – Syntax Checker – Configure Basic Router Settings

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Basic Router Configuration
Dual Stack Topology
•One distinguishing feature between switches and routers is the type of interfaces supported by
each. For example, Layer 2 switches support LANs; therefore, they have multiple FastEthernet or
Gigabit Ethernet ports. The dual stack topology in the figure is used to demonstrate the
configuration of router IPv4 and IPv6 interfaces.

1 – Basic Device Configuration
1.4 – Basic Router Configuration
1.4.3 – Dual Stack Topology

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Basic Router Configuration
Configure Router Interfaces
•Routers support LANs and WANs and can interconnect different types of networks; therefore, they
support many types of interfaces. For example, G2 ISRs have one or two integrated Gigabit Ethernet
interfaces and High-Speed WAN Interface Card (HWIC) slots to accommodate other types of network
interfaces, including serial, DSL, and cable interfaces.
•
•To be available, an interface must be:
•Configured with at least one IP address - Use the ip address ip-address subnet-mask and the ipv6
address ipv6-address/prefix interface configuration commands.
•Activated - By default, LAN and WAN interfaces are not activated (shutdown). To enable an
interface, it must be activated using the no shutdown command. (This is similar to powering on the
interface.) The interface must also be connected to another device (a hub, a switch, or another
router) for the physical layer to be active.
•Description - Optionally, the interface could also be configured with a short description of up to
240 characters. It is good practice to configure a description on each interface. On production
networks, the benefits of interface descriptions are quickly realized as they are helpful in
troubleshooting and in identifying a third-party connection and contact information.
•

1 – Basic Device Configuration
1.4 – Basic Router Configuration
1.4.4 – Configure Router Interfaces

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Basic Router Configuration
Configure Router Interfaces (Cont.)
•The example shows the configure for the interfaces on R1:

1 – Basic Device Configuration
1.4 – Basic Router Configuration
1.4.4 – Configure Router Interfaces (Cont.)
1.4.5 – Syntax Checker – Configure Router Interfaces

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Basic Router Configuration
IPv4 Loopback Interfaces
•Another common configuration of Cisco IOS routers is enabling a loopback interface.
•The loopback interface is a logical interface that is internal to the router. It is not assigned
to a physical port and can never be connected to any other device. It is considered a software
interface that is automatically placed in an “up” state, as long as the router is functioning.
•The loopback interface is useful in testing and managing a Cisco IOS device because it ensures
that at least one interface will always be available. For example, it can be used for testing
purposes, such as testing internal routing processes, by emulating networks behind the router.
•Loopback interfaces are also commonly used in lab environments to create additional interfaces.
For example, you can create multiple loopback interfaces on a router to simulate more networks for
configuration practice and testing purposes. The IPv4 address for each loopback interface must be
unique and unused by any other interface. In this curriculum, we often use a loopback interface to
simulate a link to the internet.
•Enabling and assigning a loopback address is simple:
•
Router(config)# interface loopback number
Router(config-if)# ip address ip-address subnet-mask

1 – Basic Device Configuration
1.4 – Basic Router Configuration
1.4.6 – IPv4 Loopback Interfaces

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Basic Router Configuration
Packet Tracer – Configure Router Interfaces
•In this Packet Tracer activity, you will do the following:
•Configure IPv4 addressing and verify connectivity
•Configure IPv6 addressing and verify connectivity

1 – Basic Device Configuration
1.4 – Basic Router Configuration
1.4.7 – Packet Tracer – Configure Router Interfaces

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1.5 Verify Directly Connected Networks

1- Basic Device Configuration
1.5 – Verify Directly Connected Networks

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Verify Directly Connected Networks
Interface Verification Commands
•There are several show commands that can be used to verify the operation and configuration of an
interface.
•
•The following commands are especially useful to quickly identify the status of an interface:
•show ip interface brief and show ipv6 interface brief - These display a summary for all interfaces
including the IPv4 or IPv6 address of the interface and current operational status.
•show running-config interface interface-id - This displays the commands applied to the specified
interface.
•show ip route and show ipv6 route - These display the contents of the IPv4 or IPv6 routing table
stored in RAM. In Cisco IOS 15, active interfaces should appear in the routing table with two
related entries identified by the code ‘C’ (Connected) or ‘L’ (Local). In previous IOS versions,
only a single entry with the code ‘C’ will appear.
•

1 – Basic Device Configuration
1.5 – Verify Directly Connected Networks
1.5.1 – Interface Verification Commands

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Verify Directly Connected Networks
Verify Interface Status
•The output of the show ip interface brief and show ipv6 interface brief commands can be used to
quickly reveal the status of all interfaces on the router. You can verify that the interfaces are
active and operational as indicated by the Status of “up” and Protocol of “up”, as shown in the
example. A different output would indicate a problem with either the configuration or the cabling.

1 – Basic Device Configuration
1.5 – Verify Directly Connected Networks
1.5.2 – Verify Interface Status

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Verify Directly Connected Networks
Verify IPv6 Link Local and Multicast Addresses
•The output of the show ipv6 interface brief command displays two configured IPv6 addresses per
interface. One address is the IPv6 global unicast address that was manually entered. The other
address, which begins with FE80, is the link-local unicast address for the interface. A link-local
address is automatically added to an interface whenever a global unicast address is assigned. An
IPv6 network interface is required to have a link-local address, but not necessarily a global
unicast address.
•
•The show ipv6 interface gigabitethernet 0/0/0 command displays the interface status and all of the
IPv6 addresses belonging to the interface. Along with the link local address and global unicast
address, the output includes the multicast addresses assigned to the interface, beginning with
prefix FF02, as shown in the example.
•

1 – Basic Device Configuration
1.5 – Verify Directly Connected Networks
1.5.3 – Verify IPv6 Link Local and Multicast Addresses

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Verify Directly Connected Networks
Verify Interface Configuration
•The output of the show running-config interface command displays the current commands applied to
the specified interface, as shown.
•
•The following two commands are used to gather more detailed interface information:
•show interfaces- Displays interface information and packet flow count for all interfaces on the
device.
•show ip interface and show ipv6 interface - Displays the IPv4 and IPv6 related information for all
interfaces on a router..
•

1 – Basic Device Configuration
1.5 – Verify Directly Connected Networks
1.5.4 – Verify Interface Configuration

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Verify Directly Connected Networks
Verify Routes
•The output of the show ip route and show ipv6 route commands reveal the three directly connected
network entries and the three local host route interface entries, as shown in the example.
•
•The local host route has an administrative distance of 0. It also has a /32 mask for IPv4, and a
/128 mask for IPv6. The local host route is for routes on the router that owns the IP address. It
is used to allow the router to process packets destined to that IP.
•

1 – Basic Device Configuration
1.5 – Verify Directly Connected Networks
1.5.5 – Verify Routes

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Verify Directly Connected Networks
Verify Routes (Cont.)
•A ‘C’ next to a route within the routing table indicates that this is a directly connected
network. When the router interface is configured with a global unicast address and is in the
“up/up” state, the IPv6 prefix and prefix length are added to the IPv6 routing table as a connected
route.
•
•The IPv6 global unicast address applied to the interface is also installed in the routing table as
a local route. The local route has a /128 prefix. Local routes are used by the routing table to
efficiently process packets with the interface address of the router as the destination.
•

1 – Basic Device Configuration
1.5 – Verify Directly Connected Networks
1.5.5 – Verify Routes (Cont.)

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Verify Directly Connected Networks
Filter Show Command Output
•Commands that generate multiple screens of output are, by default, paused after 24 lines. At the
end of the paused output, the --More-- text displays. Pressing Enter displays the next line and
pressing the spacebar displays the next set of lines. Use the terminal length command to specify
the number of lines to be displayed. A value of 0 (zero) prevents the router from pausing between
screens of output.
•
•Another very useful feature that improves the user experience in the CLI is the filtering
of show output. Filtering commands can be used to display specific sections of output. To enable
the filtering command, enter a pipe (|) character after the show command and then enter a filtering
parameter and a filtering expression.
•
•There are four filtering parameters that can be configured after the pipe:
•section - Shows the entire section that starts with the filtering expression.
•include - Includes all output lines that match the filtering expression.
•exclude - Excludes all output lines that match the filtering expression.
•begin - Shows all the output lines from a certain point, starting with the line that matches the
filtering expression

1 – Basic Device Configuration
1.5 – Verify Directly Connected Networks
1.5.6 – Filter Show Command Output
1.5.7 – Syntax Checker – Filter Show Command Output

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Verify Directly Connected Networks
Command History Feature
•The command history feature is useful because it temporarily stores the list of executed commands
to be recalled.
•To recall commands in the history buffer, press Ctrl+P or the Up Arrow key. The command output
begins with the most recent command. Repeat the key sequence to recall successively older commands.
To return to more recent commands in the history buffer, press Ctrl+N or the Down Arrow key. Repeat
the key sequence to recall successively more recent commands.
•By default, command history is enabled and the system captures the last 10 command lines in its
history buffer. Use the show history privileged EXEC command to display the contents of the buffer.
•It is also practical to increase the number of command lines that the history buffer records
during the current terminal session only. Use the terminal history size user EXEC command to
increase or decrease the size of the buffer.
•

1 – Basic Device Configuration
1.5 – Verify Directly Connected Networks
1.5.8 – Command History Feature
1.5.9 – Syntax Checker – Command History Features

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Verify Directly Connected Networks
Packet Tracer – Verify Directly Connected Networks
•In this Packet Tracer activity, you will complete the following objectives:
•Verify IPv4 directly connected networks
•Verify IPv6 directly connected networks
•Troubleshoot connectivity issues

1 – Basic Device Configuration
1.5 – Verify Directly Connected Networks
1.5.10 – Packet Tracer – Verify Directly Connected Networks
1.5.11 -  Check Your Understanding – Verify Directly Connected Networks

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1.6 Module Practice and Quiz

1- Basic Device Configuration
1.5 – Verify Directly Connected Networks

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Module Practice and Quiz
Packet Tracer – Implement a Small Network
•In this Packet Tracer activity, you will do the following:
•Create a network topology
•Configure devices and verify connectivity

1 – Basic Device Configuration
1.6 – Module Practice and Quiz
1.6.1 – Packet Tracer – Implement a Small Network

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Module Practice and Quiz
Lab– Configure Basic Router Settings
•In this lab, you will complete the following objectives:
•Set up the topology and initialize devices
•Cable equipment to match the network topology
•Initialize and restart the router and switch
•Configure devices and verify connectivity
•Assign static IPv4 and IPv6 information to the PC interface
•Configure basic router settings
•Configure the router for SSH
•Verify network connectivity
•

1 – Basic Device Configuration
1.6 – Module Practice and Quiz
1.6.2 – Lab – Configure Basic Router Settings

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Module Practice and Quiz
What Did I Learn In This Module?
•After a Cisco switch is powered on, it goes through a five-step boot sequence.
•The BOOT environment variable is set using the boot system global configuration mode command.
•Use the switch LEDs to monitor switch activity and performance: SYST, RPS, STAT, DUPLX, SPEED, and
PoE.
•The boot loader provides access into the switch if the operating system cannot be used because of
missing or damaged system files.
•To prepare a switch for remote management access, the switch must be configured with an IP address
and a subnet mask.
•To manage the switch from a remote network, the switch must be configured with a default gateway.
•Full-duplex communication increases effective bandwidth by allowing both ends of a connection to
transmit and receive data simultaneously.
•Switch ports can be manually configured with specific duplex and speed settings.
•Use autonegotiation when the speed and duplex settings of the device connecting to the port are
unknown or may change.
•When auto-MDIX is enabled, the interface automatically detects the required cable connection type
(straight-through or crossover) and configures the connection appropriately.
•

1 – Basic Device Configuration
1.6 – Module Practice and Quiz
1.6.3 – What Did I Learn In This Module?
1.6.4 – Module Quiz – Basic Device Configuration

‹#›
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Module Practice and Quiz
What Did I Learn In This Module? (Cont.)
•There are several show commands to use when verifying switch configurations.
•Telnet (using TCP port 23) is an older protocol that uses unsecure plaintext transmission of both
the login authentication (username and password) and the data transmitted between the communicating
devices.
•SSH (using TCP port 22) provides security for remote connections by providing strong encryption
when a device is authenticated (username and password) and also for the transmitted data between
the communicating devices.
•An IOS filename that includes the combination “k9” supports cryptographic features and
capabilities.
•To configure SSH you must verify that the switch supports it, configure the IP domain, generate
RSA key pairs, configure use authentication, configure the VTY lines, and enable SSH version 2.
•To verify that SSH is operational, use the show ip ssh command to display the version and
configuration data for SSH on the device.
•The following initial configuration tasks should always be performed: name the device to
distinguish it from other routers and configure passwords, configure a banner to provide legal
notification of unauthorized access, and save the changes on a router.
§

1 – Basic Device Configuration
1.6 – Module Practice and Quiz
1.6.3 – What Did I Learn In This Module? (Cont.)

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Module Practice and Quiz
What Did I Learn In This Module? (Cont.)
•One distinguishing feature between switches and routers is the type of interfaces supported by
each.
•Routers support LANs and WANs and can interconnect different types of networks; therefore, they
support many types of interfaces.
•The IPv4 loopback interface is a logical interface that is internal to the router. It is not
assigned to a physical port and can never be connected to any other device.
•Use the following commands to quickly identify the status of an interface:
•show ip interface brief and show ipv6 interface brief to see summary all interfaces (IPv4 and IPv6
addresses and operational status),
•show running-config interface interface-id to see the commands applied to a specified interface,
and
•show ip route and show ipv6 route to see the contents of the IPv4 or IPv6 routing table stored in
RAM.
•Filter show command output using the pipe (|) character. Use filter expressions: section, include,
exclude, and begin.
•By default, command history is enabled, and the system captures the last 10 command lines in its
history buffer.
•Use the show history privileged EXEC command to display the contents of the buffer.
§

1 – Basic Device Configuration
1.6 – Module Practice and Quiz
1.6.3 – What Did I Learn In This Module? (Cont.)
1.6.4 – Module Quiz – Basic Device Configuration

‹#›
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Module 1: Basic Device Configuration
New Terms and Commands
•boot system flash
•Power over Ethernet (PoE)
•duplex
•speed
•auto-mdix
•show controllers ethernet controller X
•phy
•show flash
•show history
•show ip ssh
•ip ssh version 2
•Loopback Interface
•interface loopback x
•include
•exclude
•section
•show history
•terminal history size
•