pmw2 k3ni 1-3b
DESCRIPTION
planing network infrastructureTRANSCRIPT
Lesson 3B / Slide 1 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
ObjectivesIn this lesson, you will learn to:
• Create a WINS plan
• Monitor WINS server performance
• Identify the effects of changing the default replication parameters
• Optimize the performance of WINS servers and services
Lesson 3B / Slide 2 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Pre-assessment Questions1. Which of following is the correct command to disable local subnet
prioritization? a. dnscmd <server name> /config /localnetpriority 1 b. dnscmd <server name> /config /localnetpriority 0 c. dnscmd <server name> /config /localsubnetpriority 1 d. dnscmd <server name> /config /localsubnetpriority 0
2. Which of the following servers are non-authoritative servers that contain frequently requested domain names and IP addresses associated with each domain name? a. Caching-only b. Non-recursive c. Forward-only d. Conditional forwarders
Lesson 3B / Slide 3 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Pre-assessment Questions (Contd.)3. Which of the following options defines the amount of time for which other
DNS servers and applications are allowed to cache the records?a. DNSb. SOAc. TTLd. TML
4. If the frequency of DNS data changes is low, you need to ___________ the SOA TTL intervals. a. install b. delete c. decrease d. increase
Lesson 3B / Slide 4 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Pre-assessment Questions (Contd.)5. Consider the following statements:
Statement A: Refresh defines the time period for which a DNS server waits before querying its source to attempt renewal of the zone. Statement B: Retry defines the time period after which a primary server attempts a zone transfer after having an unsuccessful zone replication. Which of the following is correct about the above statements?
a. Statement A is False and Statement B is True.b. Statement A is True and Statement B is False.c. Both, Statement A and Statement B are True. d. Both, Statement A and Statement B are False.
Lesson 3B / Slide 5 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Solutions to Pre-assessmentQuestions
1. b. dnscmd <server name> /config /localnetpriority 0 2. a. Caching-only 3. c. TTL 4. d. increase 5. b. Statement A is True and Statement B is False
Lesson 3B / Slide 6 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Planning WINS • You need to plan for a method to resolve NetBIOS names to IP addresses
because DNS servers alone cannot address the name resolution needs of a network that consists of Windows 2003 servers and pre-Windows 2000 clients.
• You can select any one of the following methods for name resolution:
• Broadcasts
• LMHOSTS file
• Automatic name resolution
Lesson 3B / Slide 7 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Planning WINS (Contd.)• Broadcasts:
• Involve sending the same message simultaneously to all clients on a network.
• Used when the size of the network is small and sufficient network bandwidth is available.
• Require large amount of network bandwidth because the same message is sent to all clients on the network.
• Cannot be used in subnetted networks because broadcasts cannot pass through routers.
• LMHOSTS file:
• Maintains a text database of NetBIOS names and the corresponding IP addresses.
• Used for small subnetted networks with a bandwidth limitation.
• Used in a non-DHCP environment to manually resolve NetBIOS names.
• Requires considerable maintenance effort.
Lesson 3B / Slide 8 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Planning WINS (Contd.)• Automatic name resolution:
• Dynamically resolves NetBIOS names to IP addresses in a routed environment.
• Uses a WINS server to maintain a database that maps NetBIOS names to IP addresses.
• Used for large networks with multiple broadcast domains.
• Used in a dynamic IP network that requires regular updates of NetBIOS name-to-IP address entries.
• Used in a network where some clients and servers use applications based on NetBIOS names.
Lesson 3B / Slide 9 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Planning the Number of WINS Servers • While planning the number of WINS servers, you need to consider the following
factors:
• Network environment
• Network topology
• Network traffic
• Redundancy
• Name resolution requirements of clients
• WINS availability
Lesson 3B / Slide 10 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Planning for WINS Replication and Fault Tolerance
• You need to plan for WINS replication if:
• You have to implement more than one WINS server on a network.
• You have to increase WINS service availability by providing additional fault tolerance.
• You need to consider the following factors while planning for WINS replication:
• Infrastructure of the network
• Number of additional servers
• Availability of WINS service
• Selection of replication partner:
• Push only replication
• Pull only replication
• Push/pull replication
• Convergence time
Lesson 3B / Slide 11 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Planning for WINS Replication and Fault Tolerance (Contd.)
• You need to plan for fault tolerance so that the WINS service of the network does not disrupt when:
• a WINS server fails
• the clients are not able to access the WINS server
• You can achieve effective fault tolerance using the following guidelines:
• A secondary WINS server should be configured on the network.
• Secondary WINS servers should be located on remote subnets.
• The power grid on which the secondary WINS servers are placed should be preferably different from that of the primary WINS server.
Lesson 3B / Slide 12 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Practice-Creating a WINS Plan • Problem Statement
• The customer care outlets attached with the existing branch offices at Denver and New York use NetBIOS names. This is because the network setup in the existing customer care outlets is in a mixed mode that consists of the Windows 2000 and Windows 98 operating systems. Most of the applications used by customer care outlets use NetBIOS name resolution. You need to plan the WINS server implementation for customer care outlets of the new branches in Geneva, Paris, and Virginia. The number of employees in each customer care outlet is between 25 and 50.
Lesson 3B / Slide 13 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Practice-Creating a WINS Plan (Contd.)• Solution
1. Select a NetBIOS name resolution option2. Determine the number of WINS servers required3. Select a WINS replication strategy4. Select a WINS fault tolerance strategy
Lesson 3B / Slide 14 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Monitoring WINS• You need to monitor WINS to detect problems that hamper the performance of
the WINS servers, and to identify the requirements for optimizing WINS server performance.
• The performance of WINS depends on the following types of traffic generated by the WINS service:
• Name registration requests
• Name refresh requests
• Name release requests
• Name query requests
Lesson 3B / Slide 15 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Monitoring WINS Server Performance
• To monitor WINS server performance, collect the following three types of performance data:
• Network performance
• Server performance
• WINS server performance
Lesson 3B / Slide 16 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Examining Replication Parameters
• Modify the following replication settings if you identify a problem while monitoring WINS server performance:
• Push settings
• Pull settings
Lesson 3B / Slide 17 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Optimizing WINS Servers and Services• You can optimize WINS by reducing the load on WINS servers and by upgrading
the WINS servers.
• To reduce the load on WINS servers:
• Add more WINS servers
• Place servers strategically
• Balance WINS client load
• Use burst-mode client registrations
• To upgrade WINS servers:
• Add more CPUs
• Provide sufficient RAM
• Provide high-performance disks
• Use high-bandwidth network cards
Lesson 3B / Slide 18 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Optimizing WINS Replication • Plan the replication schedules in such a way that you can achieve convergence
goals with minimum replication traffic.
• To reduce the replication traffic:
• Plan a partner replication schedule
• Plan persistent connections
• Plan replication during non-peak hours of operation
• Decrease amount of resource sharing
Lesson 3B / Slide 19 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Timely Replication of WINS Database• To ensure timely replication of WINS database:
• Decrease response time and replication time
• Replace WINS server
• Enhance availability in the WINS design by implementing Windows Clustering
Lesson 3B / Slide 20 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Optimizing WINS Using Client Renewal Technique
Client Renew Interval Action
Impact
Increased Renewal of client names with WINS decreases
Client registration activity and workload on the WINS server decreases
Level of consistency between WINS data and the network increases
Decreased Renewal of client names with WINS increases
Client registration activity and workload on the network increases
Level of consistency between WINS and the network decreases
Lesson 3B / Slide 21 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Practice-Optimizing WINS Traffic• Problem Statement
• The customer care outlet of the head office has implemented WINS. However, you have noticed a tremendous increase in the WINS traffic. To determine the increase in WINS traffic, you examined performance logs. These logs indicate that the client renewal traffic is very high. To counter this problem, you need to plan an optimization strategy.
Lesson 3B / Slide 22 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Practice-Optimizing WINS Traffic (Contd.)
• Solution
Increase the client renew interval of clients from default 6 days to 10 days or more. This will decrease the client renewal traffic and workload on the WINS server.
Lesson 3B / Slide 23 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
SummaryIn this lesson, you learned that:
• You can resolve NetBIOS names using broadcasts, LMHOSTS file, or automatic name resolution.
• While planning the number of WINS servers, you need to consider the network environment, network topology, network traffic, redundancy, name resolution requirements of clients, and WINS availability.
• You need to plan for WINS replication if you have to implement more than one WINS server on your network, or increase WINS service availability by providing additional fault tolerance.
• While planning for WINS replication, you need to consider factors, such as infrastructure of the network, number of additional servers, availability of WINS service, selection of replication partner, and convergence time.
• You need to plan for fault tolerance so that when a WINS server fails or when the clients are not able to access it, the WINS service of the network does not get disrupted.
Lesson 3B / Slide 24 of 24©NIIT
Planning and Optimizing WINS
Planning TCP/IP Network Services
Summary (Contd.)• You should monitor WINS to detect problems that hamper the performance of
the WINS servers, and to identify the requirements for optimizing WINS server performance.
• To monitor WINS server performance, you need to collect network performance, server performance, and WINS server performance data.
• You can optimize WINS by reducing the load on the WINS servers and by upgrading the WINS servers.
• You can optimize replication between WINS servers by controlling replication traffic and ensuring timely replication of WINS database.
• You can optimize the performance of the WINS server by increasing or decreasing client renew interval.