LESSON 2.1_A 98-366 Networking Fundamentals Understand Switches.

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Presentation transcript:

LESSON 2.1_A 98-366 Networking Fundamentals Understand Switches

Lesson Overview In this lesson, you will learn about: Switches Transmission speeds Data transmission Cables Uplink speeds Managed and unmanaged switches VLANs

Anticipatory Set A traditional light switch control has only 2 settings—on or off. A dimmer switch control allows for variations of light intensity. Think about these two variations of controls and what you have already learned about network hubs and switches. Explain what you think the difference is between a network hub and switch. Form groups of three to discuss your answers. Anticipatory set answers: 1) Train track switch, stove knobs, radio / TV knob, a hub broadcasts messages to all network nodes, whereas a switch "switches" the packet onto the right path.

Switches A computer networking device that connects network segments Some make it possible to connect different types of networks, including Ethernet, fiber channel, ATM, ITU-T G.hn and 802.11. http://en.wikipedia.org/wiki/Network_switch

Layer 2 switches are network bridges that process and route data at the data link layer (layer 2) of the OSI model. Layer 3 switches (multilayer) process data at the network layer of 3 and above. Layer 4 switches allows for policy-based switching and are based on the OSI "transport" layer. These switches limit different types of traffic on specific end-user switch ports. The Layer 4 network switch does not work with unintelligent or passive network devices such as hubs and repeaters. http://www.networkworld.com/details/725.html?def

Open System Interconnection (OSI) A way of subdividing a communications system into smaller parts (called layers) Layers are defined when services are provided to the layer above it and receive services from the layer below it. On each layer an “instance” provides services to the instances at the layer above and requests service from the layer below. A repeater is an electronic device that receives a signal and retransmits it to the other side of an obstruction or to a higher level or at a higher power so that the signal can cover greater distances. http://en.wikipedia.org/wiki/OSI_model

Transmission speed Data are moved across a communications channel at different rates. The rate is referred to as the bandwidth. Valerie has given permission to use this chart http://www.computerlanguage.com/

Data Transmission A standard 10/100 Ethernet switch operates at the data-link layer of the OSI model to create a different collision domain for each switch port. Ethernet is a family of frame-based computer networking technologies for local area networks. In the Ethernet networking protocol a collision domain is a physical network segment where data packets can "collide" with one another when being sent.

A network collision is where one particular device sends a packet on a network segment, forcing every other device on that same segment to pay attention to it. The hub runs in half duplex sharing bandwidth, resulting in collisions, which would then necessitate retransmissions. A half duplex is a system where only one device can talk to another at one time—they take turns talking. Using a switch is called microsegmentation. Allows for dedicated bandwidth with every computer on point-to-point connections Can run in full duplex with no collisions

Cables A straight-through cable has identical ends. A crossover cable has different ends. A PC can be connected to an uplink port with a crossover cable and to a regular port with a straight-through cable.

Uplink Speeds Ethernet standards on uplink speeds are of 10Mbps, 100Mbps, 1000 Mbps/1Gbps, 10Gbps since switches come with autosensing in various combinations. The access switch members have an uplink module installed. There are two ports on each uplink module. The uplinks are configured to act as trunk ports by connecting the access switch with the distribution switch. http://support.3com.com/infodeli/tools/switches/s_stack2/3c16902/manual.a02/ http://www.juniper.net/techpubs/en_US/junos9.5/topics/example/interfaces-aggregated-ethernet-virtual-chassis-uplinks.html

Managed and Unmanaged Switches An unmanaged switch is also called “dumb”—it allows all traffic to go through the network and the administrator has no control. The system administrator can take control of the network with a managed switch and allow ports to talk to other ports or none at all. The switch's benefits over a hub include full bandwidth to each port and methods to deal with collisions. The ports are allowed to talk to the print server or the personal computers. A managed switch has its own IP address, and has a telnet and maybe a web-based interface to monitor and secure access to each port on the switch. A managed switch can also be used to enable or disable specific ports without unplugging a cable. http://www.firewall.cx/

A managed switch can tell you about excessive usage on certain ports. A managed switch can have virtual LANS (VLANs), which separate ports on a switch into different switches. A managed switch can tell you about excessive usage on certain ports. A managed switch can be used to limit the number of IP addresses that one port can service. http://itknowledgeexchange.techtarget.com/itanswers/unmanaged-vs-managed-switch/

Virtual LAN (VLAN) Allows a separate logical network connectivity from a physical connectivity Not limited by its physical connectivity All users belong to a single broadcast domain and can communicate with each other at the data link layer or “layer 2.” Can be used to segment a complex network into smaller units for better manageability, improved performance, and security The ability to move is much simpler because of the dynamic nature of VLANs—no physical changes to network topology are necessary. Security domains can be constructed to provide various levels of security in the network.

Virtual LAN using VLANs to create broadcast domains across switches http://docs.hp.com/en/5992-0538/ar01s01.html

Hubs vs. Switches A hub is like an ordinary junction box and just passes along what it receives to all the other ports (connections) on the hub. A switch is more intelligent and is selective about where it passes data. It learns where certain equipment is located and passes along the data only to the ports that need to receive it, allowing multiple interactions at once.

Lesson Review Directions to the student: Complete NetFund_SA_2.1A