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Deck 12: Basic Switching and Switch Configuration

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exit full mode
Question
You cannot actually configure a router until you get to enable mode.
Use Space or
up arrow
down arrow
to flip the card.
Question
Stations on a network ____ packets to other stations to make their presence known on the network and to carry out normal network tasks such as IP address-to-MAC address resolution.

A) broadcast
B) unicast
C) multicast
D) anycast
Question
A(n) ____ occurs when two stations transmit more than 64 bytes of data frames before detecting a collision.

A) jabber
B) NIC error
C) late collision
D) alignment error
Question
____ switches read the entire frame, no matter how large, into their buffers before forwarding.

A) Fast-forward
B) Store-and-forward
C) fragment-free
D) cut-through
Question
____ represents an effort to provide more error-reducing benefits than cut-through switching, while keeping latency lower than does store-and-forward switching.

A) Fragment-free forwarding
B) Fast forwarding
C) Adaptive cut-through forwarding
D) Adaptive fast forwarding
Question
Routers, switches, bridges, and gateways segment networks and thus create separate collision domains.
Question
The main difference between a switch and a bridge is that the switch typically connects multiple stations individually, thereby segmenting a LAN into multiple collision domains.
Question
Some switches can interconnect network interfaces of different speeds. These switches use ____ switching and, typically, a shared memory buffer.

A) symmetric
B) shared
C) virtual
D) asymmetric
Question
In ____ memory buffering, each port has a certain amount of memory that it can use to store frames.

A) exclusive
B) shared
C) port-based
D) content-addressable
Question
Switches that use ____ forwarding start sending a frame immediately after reading the destination MAC address into their buffers.

A) cut-through
B) store-and-forward
C) fragment-free
D) adaptive cut-through forwarding
Question
____ specifies that all collisions should be detected from anywhere in a network in less time than is required to place a 64-byte frame on the network.

A) Latency
B) Transmission time
C) Slot time
D) Bit time
Question
With ____ memory buffering, any port can store frames in the shared memory buffer.

A) content-addressable
B) shared
C) port-based
D) exclusive
Question
IEEE 802.3u specifies two types of repeaters: Class I and Class II. Class II repeaters have higher latency than Class I repeaters.
Question
A bridge maintains a ____ that maps the MAC addresses on each segment to the corresponding port on the bridge to which each segment is connected.

A) multicast table
B) map table
C) bandwidth table
D) bridging table
Question
A ____ operates at layer 3 of the OSI reference model. It interprets the Network layer protocol and makes forwarding decisions based on the layer 3 address.

A) switch
B) router
C) bridge
D) hub
Question
Fragment-free switches are also known as ____ switches.

A) fast forwarding
B) error sensing
C) cut-through
D) modified cut-through
Question
A(n) ____ is the physical area in which a packet collision might occur.

A) backoff domain
B) collision domain
C) IPG domain
D) jam domain
Question
____ refers to the amount of time required to transmit one data bit on a network.

A) Transmission time
B) Slot time
C) Latency
D) Bit time
Question
A ____ error indicates that bits of a frame were corrupted during transmission,

A) frame check sequence (FCS)
B) jabber
C) long frame
D) short frame
Question
When a segment has too much broadcast traffic, utilization increases and network performance in general benefits.
Question
Describe cut-through forwarding switching.
Question
What are the three defined implementations of Fast Ethernet?
Question
Generally speaking, a switch does not require an IP address, because switches operate mainly on Layer 2 (____ addresses).

A) IP
B) TCP
C) IPX
D) MAC
Question
In ____________________ communications, devices can send and receive signals simultaneously.
Question
____________________ is a network access method (or media access method) originated by the University of Hawaii, later adopted by Xerox Corporation, and standardized as IEEE 802.3 in the early 1980s.
Question
The amount of time it takes for a packet to be sent from one device to another is called the ____________________.
Question
What are some of the frame size errors that occur on Ethernet networks?
Question
How are collisions handled by CSMA/CD?
Question
What are the Gigabit Ethernet specifications and the governing IEEE standards?
Question
What are the benefits of using full-duplex?
Question
To enter enable mode, type ____ at the command-line prompt and then press Enter.

A) enable
B) mode -enable
C) enable on
D) set enable
Question
Two types of operating systems are in use on Cisco switches: IOS-based and ____.

A) terminal-based
B) command-based
C) set-based
D) prompt-based
Question
The MAC-to-switch-port mapping is stored in the switch's ______________________________.
Question
Describe a simple way to reduce broadcast traffic.
Question
In ____________________ communications, devices can send and receive signals, but not at the same time.
Question
To start configuration mode, first type ____ at the command prompt.

A) cfg trmnl
B) config tty
C) config t
D) cfg t
Question
What are the benefits provided by switches?
Question
How can you set the host name on a Cisco Catalyst switch?
Question
To view the configuration of a port, use the ____ command.

A) display
B) show
C) interface
D) port
Question
Cisco uses the term ____ to refer to the process by which a switch learns addresses on its own.

A) ipg learn
B) switch learn
C) sticky learn
D) sticky memory
Question
Match between columns
Premises:
Responses:
the length of time that is required to forward, send, or otherwise propagate a data frame
Alignment error
the length of time that is required to forward, send, or otherwise propagate a data frame
VLAN
the length of time that is required to forward, send, or otherwise propagate a data frame
Symmetric switching
the length of time that is required to forward, send, or otherwise propagate a data frame
Broadcast storm
the length of time that is required to forward, send, or otherwise propagate a data frame
Bridge
the length of time that is required to forward, send, or otherwise propagate a data frame
Latency
the length of time that is required to forward, send, or otherwise propagate a data frame
Adaptive cut-through forwarding
the length of time that is required to forward, send, or otherwise propagate a data frame
5-4-3 rule
the length of time that is required to forward, send, or otherwise propagate a data frame
CSMA/CD
also known as error sensing
Alignment error
also known as error sensing
VLAN
also known as error sensing
Symmetric switching
also known as error sensing
Broadcast storm
also known as error sensing
Bridge
also known as error sensing
Latency
also known as error sensing
Adaptive cut-through forwarding
also known as error sensing
5-4-3 rule
also known as error sensing
CSMA/CD
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
Alignment error
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
VLAN
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
Symmetric switching
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
Broadcast storm
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
Bridge
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
Latency
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
Adaptive cut-through forwarding
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
5-4-3 rule
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
CSMA/CD
segments a network by filtering traffic at the Data Link layer
Alignment error
segments a network by filtering traffic at the Data Link layer
VLAN
segments a network by filtering traffic at the Data Link layer
Symmetric switching
segments a network by filtering traffic at the Data Link layer
Broadcast storm
segments a network by filtering traffic at the Data Link layer
Bridge
segments a network by filtering traffic at the Data Link layer
Latency
segments a network by filtering traffic at the Data Link layer
Adaptive cut-through forwarding
segments a network by filtering traffic at the Data Link layer
5-4-3 rule
segments a network by filtering traffic at the Data Link layer
CSMA/CD
Ethernet contention method
Alignment error
Ethernet contention method
VLAN
Ethernet contention method
Symmetric switching
Ethernet contention method
Broadcast storm
Ethernet contention method
Bridge
Ethernet contention method
Latency
Ethernet contention method
Adaptive cut-through forwarding
Ethernet contention method
5-4-3 rule
Ethernet contention method
CSMA/CD
switches that require all attached network interface devices to use the same transmit/receive speed
Alignment error
switches that require all attached network interface devices to use the same transmit/receive speed
VLAN
switches that require all attached network interface devices to use the same transmit/receive speed
Symmetric switching
switches that require all attached network interface devices to use the same transmit/receive speed
Broadcast storm
switches that require all attached network interface devices to use the same transmit/receive speed
Bridge
switches that require all attached network interface devices to use the same transmit/receive speed
Latency
switches that require all attached network interface devices to use the same transmit/receive speed
Adaptive cut-through forwarding
switches that require all attached network interface devices to use the same transmit/receive speed
5-4-3 rule
switches that require all attached network interface devices to use the same transmit/receive speed
CSMA/CD
virtual local area network that allows you to logically segment a network
Alignment error
virtual local area network that allows you to logically segment a network
VLAN
virtual local area network that allows you to logically segment a network
Symmetric switching
virtual local area network that allows you to logically segment a network
Broadcast storm
virtual local area network that allows you to logically segment a network
Bridge
virtual local area network that allows you to logically segment a network
Latency
virtual local area network that allows you to logically segment a network
Adaptive cut-through forwarding
virtual local area network that allows you to logically segment a network
5-4-3 rule
virtual local area network that allows you to logically segment a network
CSMA/CD
a frame with an FCS error and an octet missing
Alignment error
a frame with an FCS error and an octet missing
VLAN
a frame with an FCS error and an octet missing
Symmetric switching
a frame with an FCS error and an octet missing
Broadcast storm
a frame with an FCS error and an octet missing
Bridge
a frame with an FCS error and an octet missing
Latency
a frame with an FCS error and an octet missing
Adaptive cut-through forwarding
a frame with an FCS error and an octet missing
5-4-3 rule
a frame with an FCS error and an octet missing
CSMA/CD
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
Alignment error
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
VLAN
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
Symmetric switching
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
Broadcast storm
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
Bridge
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
Latency
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
Adaptive cut-through forwarding
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
5-4-3 rule
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
CSMA/CD
Question
Describe the violation command for configuring port security.
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Deck 12: Basic Switching and Switch Configuration
1
You cannot actually configure a router until you get to enable mode.
True
2
Stations on a network ____ packets to other stations to make their presence known on the network and to carry out normal network tasks such as IP address-to-MAC address resolution.

A) broadcast
B) unicast
C) multicast
D) anycast
A
3
A(n) ____ occurs when two stations transmit more than 64 bytes of data frames before detecting a collision.

A) jabber
B) NIC error
C) late collision
D) alignment error
C
4
____ switches read the entire frame, no matter how large, into their buffers before forwarding.

A) Fast-forward
B) Store-and-forward
C) fragment-free
D) cut-through
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k this deck
5
____ represents an effort to provide more error-reducing benefits than cut-through switching, while keeping latency lower than does store-and-forward switching.

A) Fragment-free forwarding
B) Fast forwarding
C) Adaptive cut-through forwarding
D) Adaptive fast forwarding
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6
Routers, switches, bridges, and gateways segment networks and thus create separate collision domains.
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7
The main difference between a switch and a bridge is that the switch typically connects multiple stations individually, thereby segmenting a LAN into multiple collision domains.
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8
Some switches can interconnect network interfaces of different speeds. These switches use ____ switching and, typically, a shared memory buffer.

A) symmetric
B) shared
C) virtual
D) asymmetric
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9
In ____ memory buffering, each port has a certain amount of memory that it can use to store frames.

A) exclusive
B) shared
C) port-based
D) content-addressable
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10
Switches that use ____ forwarding start sending a frame immediately after reading the destination MAC address into their buffers.

A) cut-through
B) store-and-forward
C) fragment-free
D) adaptive cut-through forwarding
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11
____ specifies that all collisions should be detected from anywhere in a network in less time than is required to place a 64-byte frame on the network.

A) Latency
B) Transmission time
C) Slot time
D) Bit time
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12
With ____ memory buffering, any port can store frames in the shared memory buffer.

A) content-addressable
B) shared
C) port-based
D) exclusive
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13
IEEE 802.3u specifies two types of repeaters: Class I and Class II. Class II repeaters have higher latency than Class I repeaters.
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14
A bridge maintains a ____ that maps the MAC addresses on each segment to the corresponding port on the bridge to which each segment is connected.

A) multicast table
B) map table
C) bandwidth table
D) bridging table
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15
A ____ operates at layer 3 of the OSI reference model. It interprets the Network layer protocol and makes forwarding decisions based on the layer 3 address.

A) switch
B) router
C) bridge
D) hub
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k this deck
16
Fragment-free switches are also known as ____ switches.

A) fast forwarding
B) error sensing
C) cut-through
D) modified cut-through
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k this deck
17
A(n) ____ is the physical area in which a packet collision might occur.

A) backoff domain
B) collision domain
C) IPG domain
D) jam domain
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k this deck
18
____ refers to the amount of time required to transmit one data bit on a network.

A) Transmission time
B) Slot time
C) Latency
D) Bit time
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Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
19
A ____ error indicates that bits of a frame were corrupted during transmission,

A) frame check sequence (FCS)
B) jabber
C) long frame
D) short frame
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k this deck
20
When a segment has too much broadcast traffic, utilization increases and network performance in general benefits.
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k this deck
21
Describe cut-through forwarding switching.
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22
What are the three defined implementations of Fast Ethernet?
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23
Generally speaking, a switch does not require an IP address, because switches operate mainly on Layer 2 (____ addresses).

A) IP
B) TCP
C) IPX
D) MAC
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24
In ____________________ communications, devices can send and receive signals simultaneously.
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25
____________________ is a network access method (or media access method) originated by the University of Hawaii, later adopted by Xerox Corporation, and standardized as IEEE 802.3 in the early 1980s.
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26
The amount of time it takes for a packet to be sent from one device to another is called the ____________________.
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27
What are some of the frame size errors that occur on Ethernet networks?
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28
How are collisions handled by CSMA/CD?
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29
What are the Gigabit Ethernet specifications and the governing IEEE standards?
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30
What are the benefits of using full-duplex?
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31
To enter enable mode, type ____ at the command-line prompt and then press Enter.

A) enable
B) mode -enable
C) enable on
D) set enable
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32
Two types of operating systems are in use on Cisco switches: IOS-based and ____.

A) terminal-based
B) command-based
C) set-based
D) prompt-based
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33
The MAC-to-switch-port mapping is stored in the switch's ______________________________.
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34
Describe a simple way to reduce broadcast traffic.
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35
In ____________________ communications, devices can send and receive signals, but not at the same time.
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36
To start configuration mode, first type ____ at the command prompt.

A) cfg trmnl
B) config tty
C) config t
D) cfg t
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37
What are the benefits provided by switches?
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38
How can you set the host name on a Cisco Catalyst switch?
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39
To view the configuration of a port, use the ____ command.

A) display
B) show
C) interface
D) port
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40
Cisco uses the term ____ to refer to the process by which a switch learns addresses on its own.

A) ipg learn
B) switch learn
C) sticky learn
D) sticky memory
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41
Match between columns
Premises:
Responses:
the length of time that is required to forward, send, or otherwise propagate a data frame
Alignment error
the length of time that is required to forward, send, or otherwise propagate a data frame
VLAN
the length of time that is required to forward, send, or otherwise propagate a data frame
Symmetric switching
the length of time that is required to forward, send, or otherwise propagate a data frame
Broadcast storm
the length of time that is required to forward, send, or otherwise propagate a data frame
Bridge
the length of time that is required to forward, send, or otherwise propagate a data frame
Latency
the length of time that is required to forward, send, or otherwise propagate a data frame
Adaptive cut-through forwarding
the length of time that is required to forward, send, or otherwise propagate a data frame
5-4-3 rule
the length of time that is required to forward, send, or otherwise propagate a data frame
CSMA/CD
also known as error sensing
Alignment error
also known as error sensing
VLAN
also known as error sensing
Symmetric switching
also known as error sensing
Broadcast storm
also known as error sensing
Bridge
also known as error sensing
Latency
also known as error sensing
Adaptive cut-through forwarding
also known as error sensing
5-4-3 rule
also known as error sensing
CSMA/CD
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
Alignment error
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
VLAN
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
Symmetric switching
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
Broadcast storm
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
Bridge
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
Latency
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
Adaptive cut-through forwarding
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
5-4-3 rule
a sudden rush of network transmissions that causes all other network communications to slow down due to the volume of data competing for access to the same bandwidth on the communications medium
CSMA/CD
segments a network by filtering traffic at the Data Link layer
Alignment error
segments a network by filtering traffic at the Data Link layer
VLAN
segments a network by filtering traffic at the Data Link layer
Symmetric switching
segments a network by filtering traffic at the Data Link layer
Broadcast storm
segments a network by filtering traffic at the Data Link layer
Bridge
segments a network by filtering traffic at the Data Link layer
Latency
segments a network by filtering traffic at the Data Link layer
Adaptive cut-through forwarding
segments a network by filtering traffic at the Data Link layer
5-4-3 rule
segments a network by filtering traffic at the Data Link layer
CSMA/CD
Ethernet contention method
Alignment error
Ethernet contention method
VLAN
Ethernet contention method
Symmetric switching
Ethernet contention method
Broadcast storm
Ethernet contention method
Bridge
Ethernet contention method
Latency
Ethernet contention method
Adaptive cut-through forwarding
Ethernet contention method
5-4-3 rule
Ethernet contention method
CSMA/CD
switches that require all attached network interface devices to use the same transmit/receive speed
Alignment error
switches that require all attached network interface devices to use the same transmit/receive speed
VLAN
switches that require all attached network interface devices to use the same transmit/receive speed
Symmetric switching
switches that require all attached network interface devices to use the same transmit/receive speed
Broadcast storm
switches that require all attached network interface devices to use the same transmit/receive speed
Bridge
switches that require all attached network interface devices to use the same transmit/receive speed
Latency
switches that require all attached network interface devices to use the same transmit/receive speed
Adaptive cut-through forwarding
switches that require all attached network interface devices to use the same transmit/receive speed
5-4-3 rule
switches that require all attached network interface devices to use the same transmit/receive speed
CSMA/CD
virtual local area network that allows you to logically segment a network
Alignment error
virtual local area network that allows you to logically segment a network
VLAN
virtual local area network that allows you to logically segment a network
Symmetric switching
virtual local area network that allows you to logically segment a network
Broadcast storm
virtual local area network that allows you to logically segment a network
Bridge
virtual local area network that allows you to logically segment a network
Latency
virtual local area network that allows you to logically segment a network
Adaptive cut-through forwarding
virtual local area network that allows you to logically segment a network
5-4-3 rule
virtual local area network that allows you to logically segment a network
CSMA/CD
a frame with an FCS error and an octet missing
Alignment error
a frame with an FCS error and an octet missing
VLAN
a frame with an FCS error and an octet missing
Symmetric switching
a frame with an FCS error and an octet missing
Broadcast storm
a frame with an FCS error and an octet missing
Bridge
a frame with an FCS error and an octet missing
Latency
a frame with an FCS error and an octet missing
Adaptive cut-through forwarding
a frame with an FCS error and an octet missing
5-4-3 rule
a frame with an FCS error and an octet missing
CSMA/CD
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
Alignment error
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
VLAN
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
Symmetric switching
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
Broadcast storm
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
Bridge
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
Latency
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
Adaptive cut-through forwarding
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
5-4-3 rule
limits collision domains to five segments of wire, four repeaters and/or hubs, and three populated hubs between any two stations on a 10-Mbps network
CSMA/CD
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42
Describe the violation command for configuring port security.
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