|Building High Availability Windows Server™ 2003 Solutions||
Building High Availability Windows Server™ 2003 Solutions
|72.00||approx. 7-9 days|
Over the last year many companies and government organizations began
migrating from platforms such as UNIX to the Windows 2003 platform to
have a high performance system that is available 24X7. However, these
organizations face a huge learning curve on how best to set up high
performance Windows Server 2003 networks for maximum availability and
power. This book provides a clear and concise road map on keeping systems
up 24X7 with the Windows platform. It delves into topics that explain how to
use Windows Server 2003 technology for scalability, uptime, performance, and
management, and how to avoid getting in trouble at the same time. This book
answers questions network administrators ask such as, "Should we cluster, load
balance, or both? Or should we invest in hot standbys? What works best?"
After providing answers, Shapiro goes beyond discussing failover and fault
tolerance to explaining monitoring, disaster recovery, and choosing the right
technology to achieve maximum availability and high performance. This is the
first book that not only provides thorough coverage of core cluster
configuration and load balancing, but also explains how to maintain and
administer a Windows 2003 high performance system, and restore and recover
failed servers in the event of a disaster.
The definitive guide for all network administrators on how to keep their Windows network up and running smoothly all day every day.
° While high availability is a topic of increasing importance to Windows administrators, there is very little information available about it
° Solutions presented are taken from real production deployments
° Covers all high-availability scenarios in load balancing and clustering, with extensive coverage of monitoring, performance, and operations management
About the Authors.
I. HIGH-PERFORMANCE WINDOWS COMPUTING.
1. The World of High-Performance, High vailability Windows Computing.
High Availability, Downtime, and Failure.
Scale-Out Availability and Windows Server 2003.
Scale-Out or Scale-Up?
Share Everything Versus Share Nothing.
The Need for High-Performance Computing.
High-Performance Computing for Everyone.
Supercomputers in Every Closet.
Processing and Memory.
Microsoft and the Cornell Theory Center.
2. Choosing High-Performance Hardware.
Standards, Vendors, and Common Sense.
Choosing the CPU.
DRAM with EDO.
Direct Rambus DRAM (RDRAM).
3. Storage for Highly Available Systems.
Redundancy and Availability of Storage.
Server Attached Storage Solutions.
Network Attached Storage Solutions (NAS).
Storage Area Networks (SAN).
IP-Based Storage Solutions.
4. Highly Available Networks.
Backbone Design for High Availability.
Bandwidth Field Notes.
What to Look for in Network Interface Cards.
Hubs, Switches, and Routers.
Layer 2 Switches.
Layer 3, Layer 4, and Beyond.
Routers and Routing in High Availability Architecture.
Using Hubs for Failover Interconnects.
SAN Topology Primer.
Architecting SAN Topology for High Availability.
5. Preparing the Platform for a High-Performance Network.
Create a Design Plan.
Active Directory Services, Logical Architecture.
Forest Plan for Highly Available Systems.
Single Global Catalog.
External DNS Domain Name.
Domain Controllers (DCs).
Multi-Master Operations (Global Catalogs).
Single Master Operations (FSMO Roles).
Domain Naming Master.
RID (Relative Identifier Master).
Primary Domain Controller Emulator.
Miscellaneous Roles for Domain Controllers.
Preferred Group Policy Administrator Domain Controller.
Group Policy Backgrounder.
Group Policy Objects for Cluster Servers.
Active Directory Physical Architecture.
Replication Schedule and Notification.
Site Link Bridge.
Site Layout and Topology.
AD Integrated DDNS (Dynamic DNS).
Administration of DNS Servers.
Administration of WINS Servers.
DHCP (Dynamic Host Configuration Protocol).
6. Building the Foundations for a Highly Available Architecture.
Windows Clustering 101.
The Cluster Model.
The Quorum Resource.
Forest Creation Process.
Installation of Support Server.
Installation of Root Domain.
Forest Preparation, DNS, and Exchange.
Installation of Bridgehead Servers and the Child Domain.
Installing DHCP and WINS Services.
Patching and Updating Domain Controllers.
Exchange Domain Preparation.
Creation of Initial Service and Administration Resources.
Create Shared Disk Resources.
Prepare the Cluster Network.
Start Server Cluster Wizard.
II.BUILDING HIGH AVAILABILITY WINDOWS SERVER 2003 SOLUTIONS.
7. High-Performance Print-Server Solutions.
Install Spooler Resources.
8. High-Performance File-Server Solution.
Scale-Out Versus Scale-Up with File Servers.
Develop Lab Systems.
Configure 2-Node Cluster Services.
Deploy Standard File System Configuration.
Define and Implement Backup/Restore Procedures.
Create a File Server Security Plan.
Configure Root of a Domain DFS.
Set Up File Server Administration Tools.
Define and Implement File Server Antivirus Strategy.
Configuration for File Server Clusters.
Standard File Share.
Share or Hide Subdirectories.
Installing the File Share Resource.
High Availability Using Replication and Domain DFS.
9. High Availability, High-Performance SQL Server Solutions.
Scale-Out Versus Scale-Up with Microsoft SQL Server.
Failover for SQL Server.
SQL Server Cluster Design Specs.
Documenting the Dependencies.
Understanding SQL Server Active/Passive Configurations.
Active/Active Configurations and Multiple Instances.
Standby Services-Advantages and Disadvantages.
Clustering SQL Server.
High Availability, High-Performance Notes.
Transactions and Logs.
Configuration and Planning.
The Role of Replication.
HA for Analysis Services (OLAP).
Clustering Analysis Services.
Create Domain OLAP Administrators Group.
Clustering SQL Server 2000 Analysis Services Troubleshooting and Best Practices.
Troubleshooting, Maintenance, and Best Practices.
Operating System Level-Backup Utilities.
10. High Availability, High-Performance Exchange.
Scale-Out Versus Scale-Up with Microsoft Exchange.
Storage Group Architecture.
Transaction Log Files.
SMTP Queue Directory.
Exchange Permissions in the Clustering Architecture.
Getting Started with Exchange 2003 Clustering.
Installing Exchange on the Cluster Nodes.
The Exchange Virtual Server.
IP Addresses and Network Names.
Creating the MSDTC Group.
Creating the EVS.
Creating an Exchange 2003 System Attendant Resource.
Configuring a Clustered Back-End Server.
11. Load Balancing.
Fault Tolerance and High Availability of NLB.
Load Balancing for High Performance.
Sharing Server Load.
What Cannot Be Scaled.
Selecting NLB Clustering Candidates.
Network Load Balancing Architecture.
Designing the NLB Cluster.
Setup and Configuration of the NLB Cluster.
Example NLB Cluster: IIS.
Example NLB Cluster: Terminal Services.
Load Balancing and COM Application Servers.
Multi-Tiered Server Farms.
NLB Cluster Management.
Administering the NLB Cluster.
12. Internet Information Server.
IIS 6.0 and the Dedicated Web Server.
Scale-Out Versus Scale-Up IIS.
Round Robin DNS.
NLB for IIS.
Planning and Configuration.
Maintaining the IIS Server Cluster.
13. Looking for Trouble: Setting Up Performance Monitoring and Alerts.
Understanding the Windows Server 2003 Monitoring Systems.
Exploring System and Performance Monitoring Objects.
Rate and Throughput.
Understanding the Work Queue.
How Performance Objects Work.
System Monitoring Tools.
Working with the Performance Console and the System Monitor.
How to Use System Monitor.
Performance Logs and Alerts.
Using Logs and Alerts.
Monitoring the Servers.
Monitoring for Bottlenecks.
Understanding Your Server's Workload.
Performance Monitoring Tips.
Microsoft Operations Manager.
MOM Rapid Fire Deployment.
Verifying Software and Hardware Requirements.
MOM Service Accounts.
MOM Database Sizing.
SQL Server Notes.
Installing MOM Databases.
Installing the First Management Server.
Installing the MOM Administrator and MOM Operator Consoles.
Discovering Computers and Deploying Agents.
Installing System Center 2005 Reporting.
Importing MOM 2005 Management Packs.
Management Pack Management.
This is the definitive resource for every network administrator, consultant, and architect who needs to maximize availability, scalability, and performance in Windows server environments.
Drawing on two decades of Windows server experience, Jeffrey Shapiro and Marcin Policht have written the most realistic, comprehensive, and independent Windows high availability guide ever published. One step at, a time, they help you plan, implement, and manage clustering, load balancing, fault tolerance, SQL Server, Exchange Server, and much more. Along the way, they address crucial high availability topics that are virtually ignored by most books, such as disaster recovery, performance monitoring, and operations management.
Shapiro and Policht offer a clear, concise roadmap for keeping Windows servers running 24x7 and delivering on even the most challenging service-level agreements. They provide real-world case studies and easy-to-use instructions designed to help readers make better decisions more rapidly.
Building the foundations for a highly available Active Directory and network architecture
Selecting and integrating high-performance hardware, storage, and networks
Installing and configuring Windows Clustering Services for both scale-out and failover
Leveraging the Microsoft Operations Framework (MOF) and Microsoft Systems Architecture (MSA)
Delivering high-performance, high availability file- and print-server solutions
Using clustering to maximize SQL Server and Exchange Server availability
Restoring failed servers: best practices and step-by-step techniques for recovering from downtime or disaster
Deploying Network Load Balancing (NLB) IIS and application servers
Administering Windows Server 2003 high-performance systems-including performance monitoring and alerts with Microsoft Operations Manager
Avoiding the pitfalls associated with Windows high availability solutions
© Copyright Pearson Education. All rights reserved.
Jeffrey R. Shapiro has worked in Information Technology for nearly 15 years. He is an industry-celebrated author and has published more than a dozen books on IT, network administration, and software development. Jeffrey has written for numerous publications over the years as well. He also regularly speaks at events and frequently participates in training courses on Microsoft systems.
Jeffrey has specialized in Microsoft technologies since 1989. From 1992 to 1998, he was CTO for a leading software development company specializing in telephony solutions for business and was credited with designing the architecture for one of the first Windows-based computer telephony platforms.
In early 2003 Jeffrey was selected to lead the Novell NetWare to Windows Server 2003 migration project for Broward County, Florida. His mandate was to design the architecture for an Active Directory network that would replace the hundreds of servers and Novell Directory Services (NDS) required to support more than 80 agencies. He was also in charge of designing the architecture for three mission-critical, high availability, high-performance data centers supporting thousands of public servants in one of the largest population centers in the United States.
In late 2004 Jeffrey turned his attention almost exclusively to systems and software architecture. He recently formed Normal Data, Inc., a company that specializes in architecting software for enterprise information technology solutions http://www.codetimes.com. Jeffrey can be reached on the Web at firstname.lastname@example.org.
Marcin Policht has diverse experience in areas of scripting and programming, as well as system engineering and administration of large-scale, high availability, Windows-based environments. He has shared his expertise as a technical trainer and as a writer, authoring a number of books and Web articles on subjects varying from WMI scripting to Active Directory management.
© Copyright Pearson Education. All rights reserved.