Week 7 - Data Link Layer PDF
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This presentation covers the data link layer in computer networking, including its purpose and function, various topologies (WAN and LAN), and the data link frame. The presentation also discusses media access control methods and how data is encapsulated in frames.
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Data Link Layer ITEC 90 – NETWORK FUNDAMENTALS Topic Title Topic Objective Purpose of the Data Link Layer Describe the purpose and function of the data link layer in preparing communication for transmission on...
Data Link Layer ITEC 90 – NETWORK FUNDAMENTALS Topic Title Topic Objective Purpose of the Data Link Layer Describe the purpose and function of the data link layer in preparing communication for transmission on specific media. Topologies Compare the characteristics of media access control methods on WAN and LAN topologies. Data Link Frame Describe the characteristics and functions of the data link frame. Purpose of the Data Link Layer The Data Link Layer The Data Link layer is responsible for communications between end-device network interface cards. It allows upper layer protocols to access the physical layer media and encapsulates Layer 3 packets (IPv4 and IPv6) into Layer 2 Frames. It also performs error detection and rejects corrupts frames. IEEE 802 LAN/MAN Data Link Sublayers IEEE 802 LAN/MAN standards are specific to the type of network (Ethernet, WLAN, WPAN, etc). The Data Link Layer consists of two sublayers, Logical Link Control (LLC) and Media Access Control (MAC). The LLC sublayer communicates between the networking software at the upper layers and the device hardware at the lower layers. The MAC sublayer is responsible for data encapsulation and media access control. Providing Access to Media Packets exchanged between nodes may experience numerous data link layers and media transitions. At each hop along the path, a router performs four basic Layer 2 functions: Accepts a frame from the network medium. De-encapsulates the frame to expose the encapsulated packet. Re-encapsulates the packet into a new frame. Forwards the new frame on the medium of the next network segment. Topologies Physical and Logical Topologies The topology of a network is the arrangement and relationship of the network devices and the interconnections between them. There are two types of topologies used when describing networks: Physical topology – shows physical connections and how devices are interconnected. Logical topology – identifies the virtual connections between devices using device interfaces and IP addressing schemes. WAN Topologies There are three common physical WAN topologies: Point-to-point – the simplest and most common WAN topology. Consists of a permanent link between two endpoints. Hub and spoke – similar to a star topology where a central site interconnects branch sites through point- to-point links. Mesh – provides high availability but requires every end system to be connected to every other end system. Point-to-Point WAN Topology Physical point-to-point topologies directly connect two nodes. The nodes may not share the media with other hosts. Because all frames on the media can only travel to or from the two nodes, Point-to-Point WAN protocols can be very simple. LAN Topologies End devices on LANs are typically interconnected using a star or extended star topology. Star and extended star topologies are easy to install, very scalable and easy to troubleshoot. Early Ethernet and Legacy Token Ring technologies provide two additional topologies: Bus – All end systems chained together and terminated on each end. Ring – Each end system is connected to its respective neighbors to form a ring. Half and Full Duplex Communication Half-duplex communication Only allows one device to send or receive at a time on a shared medium. Used on WLANs and legacy bus topologies with Ethernet hubs. Full-duplex communication Allows both devices to simultaneously transmit and receive on a shared medium. Ethernet switches operate in full-duplex mode. Data Link Frame The Frame Data is encapsulated by the data link layer with a header and a trailer to form a frame. A data link frame has three parts: Header Data Trailer The fields of the header and trailer vary according to data link layer protocol. The amount of control information carried with in the frame varies according to access control information and logical topology. Frame Fields Layer 2 Addresses Also referred to as a physical address. Contained in the frame header. Used only for local delivery of a frame on the link. Updated by each device that forwards the frame.
