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NetApp Training Overview
Data ONTAP 8.2 is the next generation data storage operating system from NetApp. It builds on the stability and scalability of Data ONTAP 8.0.
In this course, you will learn the evolution of Data ONTAP clustering and use new features, including block protocols and System Manager 2.0. You will explore the benefits of scalability and cover the architecture and functionality of a Data ONTAP cluster. You'll learn how to install, configure, manage, and troubleshoot a Data ONTAP cluster.
NetApp Training Audience
Anyone with a working knowledge of network attached storage and SAN
NetApp Professional Services, employees, partners, and customers
NetApp Training Prerequisites
Data ONTAP 7-Mode Administration
Labs
Labs sessions will be delivered using NetApp Simulator
NetApp Training Learning Objectives
By the end of this course you should be able to:
- Benefits of Data ONTAP and explain its two modes of operation
- Steps for setting up a cluster
- Manage the physical and virtual resources within a cluster
- Manage features t
- ensure nondestructive operations
- Networking components and features of a cluster
- Implement supported cluster and management network switches
- Diagram the architecture of a cluster
- Set up and configure SAN and NAS protocols
- Administer mirroring and data protection for a cluster
- Perform basic troubleshooting of a cluster
- Notification capabilities of a cluster
- Scale a cluster horizontally
- Characteristics of a cluster that affect cluster performance
NetApp Training Course outline
1. Overview
- Unique features of Data ONTAP Cluster-Mode relative t
- 7-Mode
- Three primary benefits of Data ONTAP clustering
- Scope of Data ONTAP concepts such as node virtual servers (Vservers), administrative servers, and cluster Vservers
2. Installation
- Configuring nodes and install Data ONTAP 8.2 operating system
- Assigning and initializing disks
- Creating a multimode cluster
- Adding feature licenses t
- the cluster
- Setting the dates, times, and time zones of the nodes in the cluster
3. User Interface
- Comparing the CLI with the various GUIs
- Commands are available for a command directory
- Parameters requirements for a command
- Switching among privilege levels
4. Physical Data Storage
- Drawing the FC connections from a high-availability (HA) pair of controllers t
- the disk shelves
- Creating aggregates
- Steps that are required t
- enable storage failover (SFO)
- Enabling "two-node HA" mode for two-node clusters
- Take over and giveback storage between the nodes of an HA pair
- Adding disks t
- an aggregate
- Enumerating the steps t
- expand an aggregate from 32-bit t
- 64-bit
5. Virtual Data Storage
- Creating a volume
- Building a namespace using multiple volumes
- Configuring SnapMirror relationships
- Moving volumes t
- other aggregates in a cluster
- User, group, and qtree quotas
6. Architecture
- Showing the end-to-end path of a file write request through a cluster
- Answering questions about replicated database (RDB) concepts
- Differences between a vol0 root volume and a cluster virtual server (Vserver) root volume
7. Physical Networking
- Drawing the connections of the network cables from three networks t
- a controller
- Port roles
- Creating an interface group
8. Virtual Networking
- Creating data logical interfaces (LIFs) for each cluster virtual server
- Creating static routes for the data LIFs
- Migrating and reverting a data LIF
- LIF failover rules
9. NAS Protocols
- Creating an export policy for a Vserver
- Creating an NFS configuration for a Vserver
- Writing data int
- each volume through an NFS client
- Creating a CIFS domain, server, and share
- Writing data int
- each volume through a CIFS client
10. SAN Protocols
- Differences among the supported SAN protocols
- Components that implement scalable SAN on a cluster in Data ONTAP environment
operating in Cluster-Mode
- Configuring iSCSI on a cluster and create a LUN
- Configuring a Windows iSCSI initiator
11. Storage Efficiency
- Storage efficiency features that are built int
- the Data ONTAP system operating in clustermode
- Commands that are needed t
- manage storage efficiency on a Data ONTAP cluster
- Benefits of the mirroring engine
- Creating load-sharing (LS) and data protection (DP) mirrors
- Manually and automatically replicating mirrors
- Promoting (restoring) a mirror t
- replace its read/write volume
- Implementing intercluster data protection mirrors
- Creating a Snapshot copy of a volume and create Snapshot policies
- Promoting (restoring) a Snapshot copy t
- be a read/write volume
- Answering questions about NDMP backup strategies for a cluster
12. Basic Troubleshooting
- Configuring and using the AutoSupport tool for a cluster
- Demonstrating the use of the cluster event management system (EMS)
- Determining the health of the cluster and cluster network
- Identifying any offline storage (disks, aggregates, or volumes)
- Determining if any member of a replicated database (RDB) unit is down
- Verifying that client operations are getting through t
- the volumes
- Required steps for forcing a system core dump
- Tools for monitoring a cluster
- Engaging with NetApp Global Support
13. Performance
- Characteristics of a cluster that affect its performance
- IOZone
14. Cluster Management
- Upgrading the Data ONTAP software on tw
- nodes with n
- storage downtimes
- Scaling the cluster's storage capacity by adding disks t
- an aggregate
- Moving volumes off an aggregate and delete the aggregate
- Steps for swapping a controller
- Removing a node from a cluster
- Vserver administrative roles
- Configuring onboard antivirus protection
15. Best Practices
- Best practices for Data ONTAP Cluster-Mode high availability
- Best way t
- balance cluster-mode resources
- Best methods for managing a cluster
- Enumerating some of the ways t
- protect and recover a cluster from a disaster
Labs
Lab 1-1: Identify the Characteristics of Cluster-Mode Components
Lab 1-2: Identify the Scope of Cluster-Mode Concepts
Lab 2-1: Create a Cluster and Configure the First Node in the Cluster
Lab 2-2: Add a Second Node to the Cluster
Lab 3-1: Connect to the Command Shell and Explore the Command Hierarchy
Lab 3-2: Command Options
Lab 3-3: Compare Privilege Levels
Lab 3-4: Use Partial Commands and Complete Commands with the Tab Key
Lab 3-5: Install NetApp System Manager
Lab 3-6: Configure NetApp System Manager for Your Cluster
Lab 4-1: Create a New Aggregate
Lab 4-2: Add disks to the Aggregate
Lab 4-3: Create an Aggregate using System Manager
Lab 5-1: Create a Cluster Virtual Server
Lab 5-2: Create a Flexible Volume
Lab 5-3: Use System Manager to Create a Flexible Volume
Lab 6-1: Identify Kernel and User Space Processes
Lab 6-2: RDB and Quorum Concepts
Lab 6-3: Vol0 Volumes Uses and Limitations
Lab 7-1: Identify Port Roles
Lab 7-2: Create an Interface Group
Lab 8-1: Create A NAS Data LIF
Lab 8-2: Explore Routing Groups
Lab 8-3: Migrate a Data LIF
Lab 8-4: Re-Home a Data LIF
Lab 8-5: Fail Over a Data LIF
Lab 8-6: Delete the Interface Group
Lab 9-1: Create a Vserver
Lab 9-2: Configure the CIFS Protocol for Your Vserver
Lab 9-3: Access Your CIFS Share from a Windows Client
Lab 9-4: Set and Verify the Preferred Domain Controller
Lab 9-5: Configure CIFS Home Directories
Lab 9-6: Configure NFS for Your Vserver
Lab 10-1: Use NetApp System Manager to Create a Vserver for Iscsi
Lab 10-2: Enable an Aggregate as a Resource for a Vserver
Lab 10-3: Configure Windows for MPIO
Lab 10-4: Install the Windows Host Utilities
Lab 10-5: Configure the iSCSI Software Initiator (In Windows)
Lab 10-6: Use NetApp System Manager to Create an iSCSI-Attached LUN
Lab 10-7: Access the iSCSI-Attached LUN on the Windows Host
Lab 11-1: Create a Volume
Lab 11-2: Resize a Volume
Lab 11-3: Create a Qtree and Set Quotas
Lab 11-4: Use FlexClone Volumes
Lab 11-5: Enable Deduplication and Data Compression
Lab 12-1: Create and Initialize LS and DP SnapMirror Replications
Lab 12-2: Compare DP Mirror Replication Times
Lab 12-3: Add Volumes and Files to A Replicated NameSpace
Lab 12-4: Schedule Periodic SnapMirror Replications
Lab 12-5: Promote an LS Mirror
Lab 12-6: Set Up an Intercluster Peer Relationship
Lab 12-7: Use System Manager to Configure A SnapMirror Relationship
Lab 12-8: Use the CLI to Configure a SnapMirror Relationship
Lab 12-9: Update SnapMirror Relationships
Lab 13-1: Determine the Cluster Health
Lab 13-2: Verify the Health of the Data Storage
Lab 13-3: Unlock the Diagnostic User
Lab 13-4: Monitor the RDB
Lab 13-5: Explore Volume Statistics
Lab 13-6: Collect a Core Dump
Lab 14-1: Collect Performance Statistics
Lab 14-2: Explore Additional Performance Tools
Lab 15-1: Move a Volume
Lab 15-2: Replace an Aggregate
Lab 15-3: Use Roles to Delegate Administrative Tasks
Lab 16-1: Benefits of Various Best Practices
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