The IP network is a virtual network and must rely on a link layer network to transport a frame.
What elements support getting an IP frame over an Ethernet LAN?
Solution
The data link layer (L2) is the second layer of the seven-layer OSI model of computer
networking. This layer is the protocol layer that transfers data between adjacent network nodes in
a wide area network (WAN) or between nodes on the same local area network (LAN) segment.
The data link layer, also sometimes termed as the link layer, is where many wired and wireless
local area networking (LAN) technologies primarily function.
Ethernet is the most widely used local area network (LAN) in metropolitan area networks
(MAN). Ethernet is a link layer protocol in the TCP/IP stack. It describes how networked devices
can format data for transmission to other network devices on the same network segment, and
how to put that data out on the network connection. It was commercially introduced in 1980 and
first standardized in 1983 as IEEE 802.3, and has since been refined to support higher bit rates
and longer link distances.
The data link layer is divided into two sublayers: logical link control (LLC) and media access
control (MAC).By separating LLC and MAC functions, interoperability of different network
technologies is made easier.
Data Link Layer Functions: Given below are the key tasks performed at the data link layer:
Logical Link Control (LLC): Logical link control refers to the functions required for the
establishment and control of logical links between local devices on a network. It provides
services to the network layer above it and hides the rest of the details of the data link layer to
allow different technologies to work seamlessly with the higher layers. Most local area
networking technologies use the IEEE 802.2 LLC protocol.
Media Access Control (MAC): This refers to the procedures used by devices to control access to
the network medium. Since many networks use a shared medium, it is necessary to have rules for
managing the medium to avoid conflicts. Ethernet uses the CSMA/CD method of media access
control, while Token Ring uses token passing.
Data Framing: The data link layer is responsible for the final encapsulation of higher-level
messages into frames that are sent over the network at the physical layer.
Addressing: The data link layer is the lowest layer in the OSI model that is concerned with
addressing: labeling information with a particular destination location. Each device on a network
has a unique hardware address or MAC address imbined with the hardware i.e present in network
interface card (NIC) to uniquely identify the device.
Error Detection and Handling: The data link layer handles errors that occur at the lower levels of
the network stack. For example, a cyclic redundancy check (CRC) field is often employed to
allow the station receiving data to detect if it was received correctly.
The hardware address is used for the MAC sublayer addressing. Ethernet uses the.
The IP network is a virtual network and must rely on a link layer ne.pdf
1. The IP network is a virtual network and must rely on a link layer network to transport a frame.
What elements support getting an IP frame over an Ethernet LAN?
Solution
The data link layer (L2) is the second layer of the seven-layer OSI model of computer
networking. This layer is the protocol layer that transfers data between adjacent network nodes in
a wide area network (WAN) or between nodes on the same local area network (LAN) segment.
The data link layer, also sometimes termed as the link layer, is where many wired and wireless
local area networking (LAN) technologies primarily function.
Ethernet is the most widely used local area network (LAN) in metropolitan area networks
(MAN). Ethernet is a link layer protocol in the TCP/IP stack. It describes how networked devices
can format data for transmission to other network devices on the same network segment, and
how to put that data out on the network connection. It was commercially introduced in 1980 and
first standardized in 1983 as IEEE 802.3, and has since been refined to support higher bit rates
and longer link distances.
The data link layer is divided into two sublayers: logical link control (LLC) and media access
control (MAC).By separating LLC and MAC functions, interoperability of different network
technologies is made easier.
Data Link Layer Functions: Given below are the key tasks performed at the data link layer:
Logical Link Control (LLC): Logical link control refers to the functions required for the
establishment and control of logical links between local devices on a network. It provides
services to the network layer above it and hides the rest of the details of the data link layer to
allow different technologies to work seamlessly with the higher layers. Most local area
networking technologies use the IEEE 802.2 LLC protocol.
Media Access Control (MAC): This refers to the procedures used by devices to control access to
the network medium. Since many networks use a shared medium, it is necessary to have rules for
managing the medium to avoid conflicts. Ethernet uses the CSMA/CD method of media access
control, while Token Ring uses token passing.
Data Framing: The data link layer is responsible for the final encapsulation of higher-level
messages into frames that are sent over the network at the physical layer.
Addressing: The data link layer is the lowest layer in the OSI model that is concerned with
addressing: labeling information with a particular destination location. Each device on a network
has a unique hardware address or MAC address imbined with the hardware i.e present in network
2. interface card (NIC) to uniquely identify the device.
Error Detection and Handling: The data link layer handles errors that occur at the lower levels of
the network stack. For example, a cyclic redundancy check (CRC) field is often employed to
allow the station receiving data to detect if it was received correctly.
The hardware address is used for the MAC sublayer addressing. Ethernet uses the MAC
hardware addresses for the source and destination for each packet transmitted. Ethernet uses
CSMA/CD when transmitting packets. The Carrier Sense Multiple Access with Collision
Detection (CSMA/CD) is an algorithm, for transmitting and receiving packets over a common
network hardware medium, by aiding in avoiding transmission collisions. The shared medium is
checked for other transmissions; when the medium is free from any transmission and clear, the
computer transmissions can begin. If a collision is detected the packet is retransmitted later after
a random amount of timeout.
Address resolution protocol (ARP) is a TCP/IP protocol used to map IP network addresses to a
hardware interface physical addresses.
Reverse address resolution protocol (RARP) is a TCP/IP protocol used to map hardware
interface physical addresses to IP network addresses.