Course Overview

This hands-on, advanced technical-level, instructor-led course provides a deep dive into Amazon Web Services (AWS) best practices to help you perform effective and efficient AWS Well-Architected Framework reviews. The course covers the phases of a review, including how to prepare, run, and get guidance after a review has been performed. This course is designed for AWS customers and AWS Partners. Attendees should have familiarity with the AWS concepts, terminology, services, and tools that are covered in the intermediate 200-level precursor to this course. This course provides an AWS Well-Architected Framework review simulation and instructor led group exercises and discussions about prioritizing and resolving risks.
The content focuses on how to prepare proposals on high and medium risk issues using the AWS Well-Architected Tool.

Course Objectives

In this course, you will learn to:

  • Recognize workload definition and key concepts
  • Identify the AWS Well-Architected Framework review phases, process, best practices, and anti-patterns
  • Identify high and medium risks
  • Prioritize improvements to the AWS Well-Architected workflow
  • Locate and use the AWS Well-Architected Framework white paper, labs, and prebuilt solutions in the AWS solutions library
  • Locate and use AWS Well-Architected independent software vendors (ISVs)
  • Locate and use the AWS Well-Architected Partner Program (WAPP)

Course Content

Module 0: Course Introduction

Module 1: AWS Well-Architected Framework Reviews

  • AWS Well-Architected Framework workload
  • AWS Well-Architected Framework review phases
  • AWS Well-Architected review approach, lessons learned, and use cases
  • AWS Well-Architected review best practices
  • AWS Well-Architected review anti-patterns
  • Knowledge check

Module 2: Customer Scenario Group Sessions

  • Customer Story
  • Demonstration of the workflow
  • Hands-on group exercise
  • Demonstration: Running a review in the Operational Excellence pillar
  • Role-play exercise: Running a review in the Security pillar
  • Role-play exercise: Running a review in the Reliability pillar
  • Role-play exercise: Running a review in the Performance Efficiency pillar
  • Role-play exercise: Running a review in the Cost Optimization pillar

Module 3: Risk Solutions and Priorities

  • AWS Well-Architected Framework review engagement workflow
  • High risk and medium risk issues
  • Defining risks
  • Resolving high-risk issues (HRIs) and medium-risk issues (MRIs)
  • Group discussion: Identifying and resolving significant risks for:
  • Operational Excellence
  • Security
  • Reliability
  • Performance Efficiency
  • Cost Optimization
  • Prioritizing improvements
  • AWS Well-Architected improvement workflow

Module 4: Resources

  • Resource pages
  • AWS Well-Architected ISVs
  • AWS Well-Architected Partner Program (WAPP)

Module 5: Course Summary

  • Debrief
  • What’s next?
  • Course feedback

Course Overview

This course provides the learner with an in-depth understanding of how to manage, monitor and maintain the operational aspects of VPLEX systems (Local and Metro) using Unisphere for VPLEX and the VPLEX CLI. Provisioning storage from both the local and remote clusters are topics covered in lecture and labs. Distributed volumes and working with Consistency Groups are discussed and practiced. Protecting VPLEX Virtual Volumes with RecoverPoint is covered, along with the MetroPoint feature. Monitoring a VPLEX System is also covered using both lecture and lab exercises. This course covers version 5.4

Course Objectives

Upon successful completion of this course, participants should be able to:

  • Describe common VPLEX terms, configuration options, hardware and software architecture
  • Describe high level data flow within a VPLEX system.
  • Create Virtual Volumes and provision them to Hosts 
  • Create and Manage VPLEX Distributed Devices
  • Manage VPLEX using Unisphere and CLI
  • Perform volume expansion or migration
  • Protect VPLEX Devices with RecoverPoint
  • Perform Monitoring in VPLEX including batched mobility.

Course Content

The content of this course is designed to support the course objectives.

  • VPLEX Product and Technology Details
  • VPLEX Storage Provisioning
  • Provisioning Remote Access with VPLEX
  • VPLEX Distributed Devices
  • Monitoring

Course Overview

This Expert level course provides a thorough exposure to performance on the VNX Unified Storage platform. This is a workshop-format course, with heavy emphasis on performance analysis student activities and instructor debriefs. Topical areas include the use of Unisphere Analyzer, command outputs from Navisphere Secure CLI and File server_stats, and the analysis of those performance statistics. Other topics include evaluating performance statistics utilizing different workload patterns, RAID and disk types. The performance implications of using VNX Replication Software such as SnapSure, Replicator, VNX Snapshots, SnapView and SAN Copy. Also covered are VNX features including data compression and deduplication, FAST VP, and FAST Cache, among others.

Course Objectives

Upon successful completion of this course, participants should be able to:

  • Determine VNX Unified performance using metrics and workload analysis
  • Use Block and File performance tools for analysis and troubleshooting
  • Describe the performance implications regarding different drive types and LUN Layout
  • Identify AVM performance considerations
  • Describe the performance implications of data compression and deduplication, FAST VP and FAST Cache
  • Explain the performance impact of using File deduplication, SnapSure, and Replicator
  • Identify performance considerations when using SnapView and VNX Snapshots
  • Explain the impact in using SAN Copy and MirrorView on an application
  • Size and validate a VDI (Virtual Desktop Infrastructure) storage solution for application performance

Course Content

The content of this course is designed to support the course objectives.

Performance Overview

  • Performance Review
  • VNX Cache Considerations

Analysis of Performance Data

  • Unisphere Statistics and Secure CLI
  • Unisphere Analyzer

Disk Type and LUN Layout Impact on Performance

  • Disk Considerations
  • LUN Layout and metaLUN Considerations

VNX File System Impact on Performance

  • Automatic Volume Management
  • Manual Volume Management

Storage Efficiency Features and Performance

  • Data Compression Performance Considerations
  • Block Deduplication Performance Considerations

FAST Suite Performance Considerations

  • FAST Cache and FAST VP Performance

Local Replication Performance Considerations

  • VNX SnapSure, Snapshots, and SnapView Performance

Remote Replication Performance Considerations

  • VNX Replicator, SAN Copy, and MirrorView Performance

Host Performance Considerations

  • Host Performance
  • EMC Xtrem Performance

Storage Performance Planning and Sizing for Desktop-as-a-Service

  • VDI Performance Overview
  • Measuring Virtual Desktop IO
  • Sizing the Number of VMs per RG/Pool

Course Overview

This five-day, hands-on training course provides the advanced knowledge, skills, and tools to achieve competency in operating and troubleshooting the VMware NSX infrastructure. This course introduces you to workflows of various networking and security constructs along with several operational and troubleshooting tools that help you manage and troubleshoot your VMware NSX environment.

In addition, various types of technical problems are presented to you, which you will identify, analyze, and solve through a systematic process.

Product Alignment

– VMware NSX 4.0.0.1
– VMware NSX 4.0.1.1

Course Objectives

By the end of the course, you should be able to meet the following objectives:

  • Use the native tools available in NSX to identify and troubleshoot the problems.
  • Use VMware Aria Operations for Logs and VMware Aria Operations for Networks to identify and troubleshoot problems related to the NSX environment
  • Explain the NSX infrastructure components and the communications between them
  • Identify, analyze, and troubleshoot problems related to the management, control, and data planes in NSX
  • Identify, analyze, and troubleshoot problems related to infrastructure preparation and VMware NSX Edge deployments
  • Identify, analyze, and troubleshoot problems related to logical switching and logical routing
  • Identify, analyze, and troubleshoot network security problems related to the Distributed firewalls, Gateway firewalls, and Distributed IDS/IPS.
  • Identify, analyze, and troubleshoot problems related to VPN and VMware NSX Advanced Load Balancer
  • Identify the components and packet flows involved in the NSX datapath and troubleshoot related problems

Course Content

1 Course Introduction

  • Introduction and course logistics
  • Course objectives

2 NSX Operations and Tools

  • Explain and validate the native troubleshooting tools for NSX
  • Configure syslog, IPFIX, and log collections for the NSX environment
  • Integrate NSX with VMware Aria Operations for Logs and VMware Aria Operations for Networks
  • Validate and review the API methods available to configure the NSX environment

3 Troubleshooting the NSX Management Cluster

  • Describe the NSX Management cluster architecture, components, and communication channels
  • Identify the workflows involved in configuring the NSX Management cluster
  • Validate and troubleshoot the NSX Management cluster formation

4 Troubleshooting Infrastructure Preparation

  • Describe the data plane architecture, components, and communication channels
  • Explain and troubleshoot VMware ESXi transport node preparation issues
  • Explain and troubleshoot NSX Edge deployment issues

5 Troubleshooting Logical Switching

  • Describe the architecture of logical switching
  • List the modules and processes involved in configuring logical switching
  • Explain the importance of VDS in transport nodes
  • Review the architecture and workflows involved in attaching workloads to segments
  • Identify and troubleshoot common logical switching issues

6 Troubleshooting Logical Routing

  • Review the architecture of logical routing
  • Explain the workflows involved in the configuration of Tier-0 and Tier-1 gateways
  • Explain the high availability modes and validate logical router placements
  • Identify and troubleshoot common logical routing issues using both BGP and OSPF

7 Troubleshooting Security

  • Review the architecture of the Distributed Firewall
  • Explain the workflows involved in configuring the Distributed Firewall
  • Review the architecture of the Gateway Firewall
  • Explain the workflows involved in configuring the Gateway Firewall
  • Identify and troubleshoot common Distributed firewall and Gateway Firewall issues
  • Review the architecture and workflows involved in configuring Distributed IDS/IPS
  • Identify and troubleshoot common Distributed IDS/IPS problems.

8 Troubleshooting Services

  • Review the NSX Advanced Load Balancer architecture and components
  • Identify and troubleshoot common NSX Advanced Load Balancer issues
  • Review the IPsec and L2 VPN architecture and components
  • Identify and troubleshoot common IPsec and L2 VPN issues

9 Datapath Walkthrough

  • Verify and validate the path of the packet on the NSX datapath
  • Identify and perform packet captures at various points in the datapath
  • Use NSX CLI and native hypervisor commands to retrieve configurations involved in the NSX datapath

Course Overview

This five-day course provides comprehensive training on considerations and practices to design a VMware NSX® environment as part of a software-defined data center strategy. This course prepares the student with the skills to lead the design of an NSX environment, including design principles, processes, and frameworks. The student gains a deeper understanding of the NSX architecture and how it can be used to create solutions to address the customer’s business needs.

Product Alignment

– VMware NSX 4.1.0

Course Objectives

By the end of the course, you should be able to meet the following objectives:

  • Describe and apply a design framework
  • Apply a design process for gathering requirements, constraints, assumptions, and risks
  • Design a VMware vSphere® virtual data center to support NSX requirements
  • Create a VMware NSX® Manager™ cluster design
  • Create a VMware NSX® Edge™ cluster design to support traffic and service requirements in NSX
  • Design logical switching and routing
  • Recognize NSX security best practices
  • Design logical network services
  • Design a physical network to support network virtualization in a software-defined data center
  • Create a design to support the NSX infrastructure across multiple sites
  • Describe the factors that drive performance in NSX

Course Content

1 Course Introduction

  • Introduction and course logistics
  • Course objectives

2 NSX Design Concepts

  • Identify design terms
  • Describe framework and project methodology
  • Describe the role of VMware Cloud Foundation™ in NSX design
  • Identify customers’ requirements, assumptions, constraints, and risks
  • Explain the conceptual design
  • Explain the logical design
  • Explain the physical design

3 NSX Architecture and Components

  • Recognize the main elements in the NSX architecture
  • Describe the NSX management cluster and the management plane
  • Identify the functions and components of management, control, and data planes
  • Describe the NSX Manager sizing options
  • Recognize the justification and implication of NSX Manager cluster design decisions
  • Identify the NSX management cluster design options

4 NSX Edge Design

  • Explain the leading practices for edge design
  • Describe the NSX Edge VM reference designs
  • Describe the bare-metal NSX Edge reference designs
  • Explain the leading practices for edge cluster design
  • Explain the effect of stateful services placement
  • Explain the growth patterns for edge clusters
  • Identify design considerations when using L2 bridging services

5 NSX Logical Switching Design

  • Describe concepts and terminology in logical switching
  • Identify segment and transport zone design considerations
  • Identify virtual switch design considerations
  • Identify uplink profile and transport node profile design considerations
  • Identify Geneve tunneling design considerations
  • Identify BUM replication mode design considerations

6 NSX Logical Routing Design

  • Explain the function and features of logical routing
  • Describe the NSX single-tier and multitier routing architectures
  • Identify guidelines when selecting a routing topology
  • Describe the BGP and OSPF routing protocol configuration options
  • Explain gateway high availability modes of operation and failure detection mechanisms
  • Identify how multitier architectures provide control over stateful service location
  • Identify EVPN requirements and design considerations
  • Identify VRF Lite requirements and considerations
  • Identify the typical NSX scalable architectures

7 NSX Security Design

  • Identify different security features available in NSX
  • Describe the advantages of an NSX Distributed Firewall
  • Describe the use of NSX Gateway Firewall as a perimeter firewall and as an intertenant firewall
  • Determine a security policy methodology
  • Recognize the NSX security best practices

8 NSX Network Services

  • Identify the stateful services available in different edge cluster high availability modes
  • Describe failover detection mechanisms
  • Compare NSX NAT solutions
  • Explain how to select DHCP and DNS services
  • Compare policy-based and route-based IPSec VPN
  • Describe an L2 VPN topology that can be used to interconnect data centers
  • Explain the design considerations for integrating VMware NSX® Advanced Load Balancer™ with NSX

9 Physical Infrastructure Design

  • Identify the components of a switch fabric design
  • Assess Layer 2 and Layer 3 switch fabric design implications
  • Review guidelines when designing top-of-rack switches
  • Review options for connecting transport hosts to the switch fabric
  • Describe typical designs for VMware ESXi™ compute hypervisors with two pNICs
  • Describe typical designs for ESXi compute hypervisors with four or more pNICs
  • Differentiate dedicated and collapsed cluster approaches to SDDC design

10 NSX Multilocation Design

  • Explain scale considerations in an NSX multisite design
  • Describe the main components of the NSX Federation architecture
  • Describe the stretched networking capability in Federation
  • Describe stretched security use cases in Federation
  • Compare the Federation disaster recovery designs

11 NSX Optimization and DPU-Based Acceleration

  • Describe Geneve Offload
  • Describe the benefits of Receive Side Scaling and Geneve Rx Filters
  • Explain the benefits of SSL Offload
  • Describe the effect of Multi-TEP, MTU size, and NIC speed on throughput
  • Explain the available enhanced datapath modes and use cases
  • List the key performance factors for compute nodes and NSX Edge nodes
  • Describe DPU-Based Acceleration
  • Define the NSX features supported by DPUs
  • Describe the hardware and networking configurations supported with DPUs

Course Overview

This specialist level course provides the knowledge required to deploy and manage VMAX3 array-based local and remote replication solutions for business continuity needs. Operational details and implementation considerations for EMC TimeFinder SnapVX and Symmetrix Remote Data Facility (SRDF) are covered. Lessons include considerations for performing local and remote replication operations in physical and virtualized environments. Hands-on lab exercises using Symmetrix Command Line Interface (SYMCLI) and Unisphere for VMAX provide the opportunity to learn and validate the material covered in the lectures. Lab exercises will be performed in physical (Sun Solaris and Windows 2008) and virtualized (VMware ESXi) hosts attached to VMAX3 arrays.

Course Objectives

Upon successful completion of this course, participants should be able to:

  • Describe and perform TimeFinder SnapVX operations with SYMCLI and Unisphere for VMAX – in physical and virtualized environments
  • Describe and perform SRDF operations in Synchronous (SRDF/S) and Asynchronous (SRDF/A) modes using SYMCLI and Unisphere for VMAX – in physical and virtualized environments

Course Content

The content of this course is designed to support the course objectives.

Module – TimeFinder SnapVX operations

  • Lesson – TimeFinder SnapVX concepts and operations
  • Lesson – TimeFinder SnapVX operations in a virtualized environment – Replicating a VMFS Datastore
  • Lesson – TimeFinder SnapVX operations in a virtualize environment – Replicating a VM accessing RDM Hard Disks
  • Lesson – TimeFinder SnapVX operations using Unisphere for VMAX

Module – SRDF/Synchronous operations

  • Lesson – SRDF Initial setup operations
  • Lesson – SRDF Disaster Recovery operations
  • Lesson – SRDF Decision Support/Concurrent operations
  • Lesson – SRDF/S for VMFS Datastore Disaster Recovery
  • Lesson – SRDF/S Disaster Recovery for a VM accessing RDM Hard Disks
  • Lesson – SRDF Operations using Unisphere for VMAX

Module – SRDF/Asynchronous operations

  • Lesson – SRDF/A concepts and operations
  • Lesson – SRDF/A Resiliency features
  • Lesson – SRDF/A Multi-session Consistency (MSC)

Course Overview

This Specialist level course provides participants with an in-depth understanding of configuration tasks on the VMAX All Flash and VMAX3 Family of arrays. Key features and functions of the VMAX All Flash and VMAX3 arrays are covered in detail. Topics include storage provisioning concepts, virtual provisioning, automated tiering (FAST), device and port management, service level based storage provisioning and eNAS.  Participants will use Unisphere for VMAX and Solutions Enabler (SYMCLI) to manage configuration changes. The lab exercises will be performed on Open Systems hosts (traditional and virtualized) attached to VMAX3 arrays.

Course Objectives

Upon successful completion of this course, participants should be able to:

  • Provide an overview of configuration and storage provisioning
  • Describe virtual provisioning concepts and automated tiering
  • Create thin devices
  • Manage ports and port characteristics
  • Perform service level objective based provisioning to hosts
  • Set/change  Host I/O Limits, SLO, and Workload Type
  • Monitor Storage Resource Pools and SLO Compliance
  • Use Unisphere for VMAX for Workload Planning
  • Provide an overview of the eNAS solution
  • Manage eNAS
  • Provide an overview of storage management in a virtualized environment

Course Content

The content of this course is designed to support the course objectives.

Module – Configuration Management Overview

  • Lesson – Overview
  • Lesson – Storage Provisioning Overview
  • Lab – Explore VMAX3 Environment with Unisphere for VMAX and SYMCLI

Module – Virtual Provisioning and FAST Concepts

  • Lesson – Virtual Provisioning and FAST Overview
  • Lesson – FAST Algorithms and Parameters

Module – Device and Port Management

  • Lesson – Device  Management
  • Lesson – Port Management
  • Lesson – iSCSI Management
  • Lab – Port Management with Unisphere and SYMCLI

Module – Storage Allocation using Auto-provisioning Groups

  • Lesson – Auto-provisioning Groups Overview
  • Lesson – Host Considerations – Storage Allocation
  • Lesson – Service Level Objective Based Provisioning with Unisphere
  • Lab – Service Level Objective Based Provisioning with Unisphere
  • Lesson – Service Level Objective Based Provisioning with SYMCLI
  • Lab – Service Level Objective Based Provisioning with SYMCLI
  • Lab – Cascaded Storage Groups – Moving devices Non-disruptively and Changing SLO
  • Lab – Managing Host I/O Limits

Module – Monitoring and Workload Planning with Unisphere for VMAX

  • Lesson – Monitor SRP
  • Lesson – Monitor SLO Compliance
  • Lesson – Workload Planning
  • Lab – Monitoring SRP and SLO Compliance with Unisphere
  • Lab – Workload Planning with  Unisphere

Module – eNAS Overview

Module – eNAS Management

  • Lesson –  Unisphere for VMAX File Dashboard
  • Lab – Allocate Storage to eNAS with Unisphere for VMAX File Dashboard
  • Lesson –  Managing File Systems/Shares
  • Lab – Create FS/Share on VMAX3 Storage with Unisphere for VNX

Module – Management in a Virtualized Environment

  • Lesson – Virtual Server Management – Unisphere for VMAX
  • Lesson – EMC VSI for VMware vSphere Web Client

This course includes labs designed to allow practical experience.

Course Overview

This course covers initial installation, configuration, and validation of the deployment of ViPR SRM using both the vApp and Binary methods. Lecture and labs will support performing frontend and backend administration, platform expansion, SolutionPack deployment, and troubleshooting procedures. Additional subjects include alerting management and an introduction to data-enrichment. Hands-on labs assist the learner to integrate and practice the skills introduced in class, and provide real-life experiences with selected SolutionPacks and common administrative tasks.

Course Objectives

Upon successful completion of this course, participants should be able to:

  • Implement the use of the ViPR SRM pre-installation, installation, and product documents
  • Validate the ViPR SRM installation using the EMC M&R Health SolutionPack
  • Install, configure, and verify storage-related SolutionPacks
  • Configure and integrate users, roles, and profiles with LDAP authentication

Course Content

The content of this course is designed to support the course objectives.

Site Validation

  • ViPR SRM Architecture Review
  • Documentation and Tools
  • Installation Prerequisites
  • Site Validation
  • ViPR SRM Installation
  • Installation Overview
  • ViPR SRM Installation
  • Expanding the Platform
  • ViPR SRM Configuration

Backend Administration

  • Module Manager
  • Centralized-Management User Interface
  • APG – Backend Administration
  • Database Administration
  • Arbiter and Load-Balancer Administration

SolutionPacks

  • ViPR SRM SolutionPacks Overview
  • EMC M&R Health SolutionPack
  • Storage SolutionPacks – Arrays
  • Storage SolutionPacks – Connectivity
  • Storage SolutionPacks – Infrastructure
  • Storage SolutionPacks – Compliance

Frontend Administration

  • Frontend Overview
  • Users, Profiles, and Roles
  • Authentication Integration

Security

  • Securing the platform

Alerting

  • Introduction to Alerting

Course Overview

This course is intended for storage administrators who will be using ViPR SRM to monitor and report on a storage environment. Various ViPR SRM use cases are presented. Hands-on labs will cover the creation of localized dashboard views and reports which can be used to analyze common storage management issues related to performance, capacity planning, storage chargeback, configuration compliance, service level usage, and alerting.

Course Objectives

Upon successful completion of this course, participants should be able to:

  • Use the Dashboard and SolutionPacks to monitor and meter the storage infrastructure
  • Create and customize reports for common operational challenges
  • Define and attach alerts to events logged in reports and collected data
  • Analyze report data to locate and resolve infrastructure and compliance issues

Course Content

The content of this course is designed to support the course objectives.

Overview of ViPR SRM for Storage Administrators

  • Introduction to SRM Administration
  • The Global Dashboard
  • Reporting Basics

Application Complexity

  • Topology View
  • Path Details View

Performance Problems

  • Host Performance Reporting
  • Performance Analysis
  • Performance Alerts

Uncontrolled Growth

  • Capacity Dashboard and Trends
  • SLA Capacity and Usage Reports
  • Thin Pool, File, and Object Consumption

Wasted Effort and Incidents

  • Track Configuration Change
  • Detect and view SLA Breaches

SLA Failures

  • User-based Custom Reports
  • Unified Alerting
  • Automate Report Delivery

Opaque Costs

  • Chargeback Reports
  • Array Policy Chargeback
  • Automate Reporting

Uncertain Recoverability

  • EMC Data Protection Advisor SolutionPack
  • RTO/RPO Compliance

Wasted Storage

  • Situations to Watch Reporting
  • Storage Reclamation

Course Overview

This course provides training for modifying reports and creating standard and enhanced reports within the EMC ViPR SRM solution. After completing this course, you will understand ViPR SRM’s reporting capabilities and architecture. You will also be able to modify existing reports or create unique reports to meet the expectations of your business strategy and organizational requirements.

Course Objectives

Upon successful completion of this course, participants should be able to:

  • Describe the ViPR SRM report structure design and data manipulation.
  • Use the features of ViPR SRM in report design and creation.
  • Create unique reports including, dashboards, inventory, advanced graph reports, time-ratio, heat map, Geo-Map, and mixed reports.
  • Recognize the advantages of the various report types.
  • Understand the use of formulas in report design and creation.
  • Create reports for multiple users and manage the content of the report tree.

Course Content

The content of this course is designed to support the course objectives.

Module 1: ViPR SRM Overview

  • Lesson 1 – Portal Tools and Features
  • Lesson 2 – Examples of Use of Reporting
  • Lesson 3 – Overview of Data Enrichment

Module 2: Basics of Reporting

  • Lesson 1: Creating Reports and Report Design
  • Lesson 2: Base Organization of Data
  • Lesson 3: Browsing the Data Set

Module 3: Reporting Key Concepts

  • Lesson 1: Report Definition Key Concepts
  • Lesson 2: Expansion

Module 4: Base Report Types

  • Lesson 1: Base Report Types: Tables
  • Lesson 2: Base Report Types: Charts
  • Lesson 3: Mixed Reports and Overlay

Module 5: Formulas

Module 6: Additional Report Types

  • Lesson 1: Aggregated Report Types
  • Lesson 2: Grouping Report Types
  • Lesson 3: Advanced Report Types
  • Lesson 4: Miscellaneous Report Types
  • Lesson 5: Handling a ReportPack