Objectives

1. 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network, EnhancedChapter 3: Planning Network Data Flow

2. Objectives • Describe the three types of network traffic • Understand unique characteristics of Ethernet • Use physical components of a network to control data flow • Monitor network performance • Optimize network settings • Use network troubleshooting utilities 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

3. Types of Network Traffic • Network traffic is defined as packets of data sent on the network • Three types of IPv4 packets: • Unicast • Broadcast • Multicast 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

4. Unicast Packets • A unicast packet is addressed to a single computer • The destination IP address in a unicast packet is a Class A, B, or C IP address • This type of traffic can communicate on the Internet and perform file and printer sharing in the network 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

5. Broadcast Packets • Local broadcasts are used by applications to announce status and ensure that all interested hosts are informed • Broadcast packets are inefficient because they are processed by all hosts on a subnet • On a busy host this may reduce performance levels 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

6. Activity 3-1: Analyzing a Broadcast • The purpose of this activity is to view the contents of a broadcast packet 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

7. Multicast Packets • Multicast packets are addressed to a group of computers using a Class D IP address • Multicast packets are an improvement over broadcast packets because multicast packets are processed by all hosts up to only the Internet layer rather than up to the Application layer • This reduces the processing load on busy hosts 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

8. Ethernet • Ethernet is the most common network technology used for LAN connectivity • Popularity of Ethernet is due to its high performance and low price • Three important Ethernet concepts are: • Collisions • Collision domains • Transmission modes 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

9. Collisions • If two computers happen to transmit information on the network at the same time, then a collision results • Ethernet uses Carrier Sense Multiple Access/Collision Detection (CSMA/CD) as the access method to determine which computer is allowed to send data on the network and when • When a collision occurs, the two computers that are transmitting data stop and wait for a random period of time before resending 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

10. Transmission Modes • A transmission mode is how data is sent on the network • Ethernet networks are capable of transmitting at: • Half-duplex mode • can send data or receive data, but cannot do both at the same time • Full-duplex mode • can transmit and receive information at the same time 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

11. Activity 3-2: Viewing Ethernet Settings • The purpose of this activity is to view various Ethernet settings 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

12. Media • Media is the physical component that connects all of the devices together • The most common media types used in computer networks are: • Twisted-pair • Fiber optic • Coaxial 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

13. Media (continued) • Twisted-pair cabling is the most common type of cabling used in computer networks • On an Ethernet network, it can carry data at up to 1 Gbps at a maximum distance of 100 meters over a single segment 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

14. Media (continued) • Fiber-optic cabling is used for network backbones where twisted-pair cabling cannot transmit the distance needed • On an Ethernet network, it can carry data at up to 10 Gbps for a 2 kilometers • Two fibers are required for each connection: one for sending data, the other for receiving 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

15. Media (continued) • Coaxial cabling was common on older Ethernet networks, but has been removed from most networks • Coaxial cable cannot transmit in full-duplex mode • Coaxial cabling is now expensive compared to twisted-pair cabling 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

16. Media (continued) • Wireless connectivity is not part of the Ethernet standard; very popular now • A major cost savings in wireless implementations is the lack of cabling installation • Security is a concern with wireless connectivity 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

17. Hubs • A hub acts as a central connection point on a network that allows multiple computers to communicate with each other • A hub can also be used to extend the network for greater distance • A hub operates at the Physical layer of the OSI model and is responsible for media characteristics and electrical signaling 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

18. Latency • When a signal passes through a hub, it takes a small amount of time for the signal to be regenerated • The delay between receiving the signal and sending it out again is called latency 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

19. Latency (continued) • When many hubs are linked, a high level of latency is introduced and the carrier sense portion of CSMA/CD becomes unreliable • When the latency is high, the number of collisions increases because a computer at one end of the collision domain can begin sending a packet while another computer at the other end is sending a packet at the same time 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

20. Switches • A switch divides network traffic based on MAC addresses • Switches can operate at full-duplex • Switches operate at the Data Link layer of the OSI model • Switches can perform tasks that deal with full packets of data and MAC addresses 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

21. Switches (continued) • A switch has several benefits over a hub: • Each port on a switch is a separate collision domain allowing the division of large networks and a reduction in the number of collisions • A switch can direct traffic only to the port to which the destination computer is attached, which reduces overall levels of network traffic • Switches can connect dissimilar network architectures, such as Ethernet and wireless 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

22. Switches (continued) 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

23. Switches (continued) 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

24. Routers • Routers are used to move traffic between networks • A router operates at the Network layer of the OSI model which allows the control of network traffic based on logical IP addresses • Routers maintain a list of IP networks called a routing table • Routers are more scalable than switches • Routers can control traffic for hundreds of thousands of computers, whereas switches normally can track thousands of computers 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

25. Monitoring and Optimizing Network Performance • A bottleneck is any point in the communication process that cannot perform at the same level as other components • Bottlenecks can occur in the physical network or in server components • Network performance is limited by bottlenecks 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

26. Network Performance Problems and Solutions • The tools used to monitor network performance include: • Protocol analyzers • Cable testers • Task Manager • Performance snap-in 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

27. Protocol Analyzers • Protocol analyzers can capture network traffic and monitor network performance • A protocol analyzer can be used to look at each packet in the communication process to see where the problem lies • Network Monitor is a limited protocol analyzer included with Windows Server 2003 • Ethereal is an alternative packet analyzer that is very popular and free 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

28. Cable Testers • A cable tester checks the ability of a cable to carry the electrical signals properly that are sent by the computers • Each cable tester can verify the proper installation of only certain types of cabling 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

29. Task Manager • Task Manager is a simple tool that can be used to: • Check memory • Processor • Network utilization 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

30. Performance Snap-in • The Performance snap-in located in Administrative Tools can be used to generate graphs and log many Windows Server 2003 performance indicators • The graphs generated by the Performance snap-in can capture short- and medium-term information 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

31. Activity 3-3: Monitoring Network Performance • The purpose of this activity is to view network utilization using Network Monitor, Task Manager, and the Performance snap-in 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

32. Optimizing Network Settings • Network performance gains can be made by modifying the network configuration of the servers 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

33. Utilizing the Binding Process • Binding is the process in which a network protocol is configured to use a network adapter • When a protocol is added to a network connection, it is bound to the network adapter and the services that are part of that connection • Windows Server 2003 allows you to optimize your network connectivity by • Adjusting the order in which protocols are used • Defining the priority of network services 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

34. Minimizing Network Protocols • If a protocol is required to support older clients, explore centralizing all services using that protocol on a single server • This reduces the service advertisements produced by other servers and reduces the processing required on other servers 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

35. Implementing the Maximum Transmission Unit (MTU) Setting • The Maximum Transmission Unit (MTU) setting sets the maximum packet size that TCP/IP will try to negotiate when creating a TCP connection • The default MTU setting is 1,500 bytes on an Ethernet network 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

36. Troubleshooting Utilities • Windows Server 2003 has a wide variety of utilities that can be used to troubleshoot network problems • It is important to understand what each tool does and when it is appropriate to use 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

37. Ping • Ping confirms that a host is active at an IP address • Ping can be used to test for DNS resolution problems • When you ping a host, the Ping utility indicates how long it took for the remote host to respond 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

38. Tracert • The Tracert utility is used to view the routers that a packet passes through between the local host and a remote host • When using the Tracert utility to troubleshoot Internet connectivity, look for the router that stops responding; this one is preventing users from accessing a particular server 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

39. Pathping • Pathping can be used to view the routers used to move a packet from the local host to a remote host • However, the Pathping utility sends 100 packets to each router in the path to provide a more accurate measure of response times 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

40. Activity 3-4: Testing for Network Congestion with Pathping • The purpose of this activity is to test to see if the network is congested using the pathping command 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

41. Nbtstat • Nbtstat is used to view NetBIOS over TCP/IP statistics • It can view the list of NetBIOS services available on the local host or remote hosts, and it can view the local NetBIOS name cache 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

42. Netstat • Netstat displays TCP connection information and various IP statistics, such as the number of UDP and TCP packets and the IP routing table • Viewing TCP connections is useful for finding rogue services 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

43. Network Diagnostics • Network Diagnostics can be used to view a variety of settings on your server • It builds a list of information about your server and tests services such as DNS and WINS to ensure availability 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

44. Activity 3-5: Viewing TCP Connections with Netstat • The purpose of this activity is to view open connections and running services with the Netstat utility and view the current network configuration with Network Diagnostics 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

45. Ipconfig • The ipconfig command can be used to: • View IP configuration information • Release and renew IP addresses that are obtained from a DHCP server • Flush the DNS cache because Windows Server 2003 caches all DNS lookups 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

46. Netsh • Netsh is a command-line utility that can be used to modify and view IP configuration information • It is useful for remotely managing IP configuration when Terminal Services is unavailable and via scripts 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

47. Nslookup • Nslookup is used to query DNS servers • Can be configured to query any DNS server you want, making it easy to confirm the configuration of a particular DNS server that is having problems 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

48. Summary • Types of network traffic: unicast, broadcast, and multicast • Ethernet is the most common network architecture • A collision domain is an area of a network where collisions occur • Transmission modes are half-duplex and full-duplex • Hubs operate at the Physical layer of the OSI model and send received data to all ports except the one from which it was received 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

49. Summary (continued) • Switches operate at the Data Link layer of the OSI model and control data flow based on MAC addresses • Routers operate at the Network layer of the OSI model and control data flow based on IP addresses • Tools used to identify bottlenecks include protocol analyzers, cable testers, Task Manager, and the Performance snap-in • Can optimize network settings by adjusting bindings, minimizing number of protocols, and adjusting MTU 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network

50. Summary (continued) • IP troubleshooting utilities: • Ping • Tracert • Pathping • Nbtstat • Netstat • Network Diagnostics • Ipconfig • Netsh, • Nslookup 70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network