Veeam Backup and Replication V11: Architecture and Design (VBRv11AD)

The two-day, Veeam® Backup & Replication™ v11: Architecture and Design training course, is focused on teaching IT professionals how to effectively architect a Veeam solution through attaining technical excellence following the Veeam Architecture Methodology used by Veeam’s own Solution Architects.


During the two days, attendees will explore the goals of requirement gathering and infrastructure assessment, and use that information to design Veeam solutions within team exercises. Attendees will analyze considerations when turning logical designs into physical designs and describe the obligations to the implementation team that will implement that design. Other topics covered will include security, governance and validation impacts when architecting a Veeam solution and how to build these into the overall design.


Attendees should expect to contribute to team exercises, present designs and defend decision making.


Certification

Completion of this course satisfies the prerequisite for taking the Veeam Certified Architect (VMCA) exam, the highest level of Veeam certification. VMCA certification proves knowledge of architecture and design concepts, highlighting the level of skill required to efficiently architect a Veeam solution in a range of real-world environments.


Audience

Senior Engineers and Architects responsible for creating architectures for Veeam environments.


Prerequisites

The Veeam Availability Suite™: Configuration and Management is strongly recommended before sitting for the Veeam Backup & Replication™: Architecture and Design course, but it is not a hard requirement. The class tests knowledge of architecture and design understanding of the key features, concepts and configuration taught in the Configuration and Management course, would be extremely useful. Attendees should have extensive commercial experience with Veeam and a broad sphere of technical knowledge of servers, storage, networks, virtualization and cloud environments.


Objectives

After completing this course attendees should be able to:

  • Design and architect a Veeam solution in a real-world environment
  • Describe best practices, review an existing infrastructure and assess business/project requirements
  • Identify relevant infrastructure metrics and perform component (storage, CPU, memory) quantity sizing
  • Provide implementation and testing guidelines in line with designs
  • Innovatively address design challenges and pain points, matching appropriate Veeam Backup & Replication features with requirements
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Course Outline

Introduction

  • Review the architecture principles
  • Explore what a successful architecture looks like
  • Review Veeam’s architecture methodology


Discovery

  • Analyze the existing environment
  • Uncover relevant infrastructure metrics
  • Uncover assumptions and risks
  • Identify complexity in the environment


Conceptual design

  • Review scenario and data from discovery phase
  • Identify logical groups of objects that will share resources based on requirements
  • Create a set of detailed tables of business and technical requirements, constraints, assumptions and risks
  • Review infrastructure data with each product component in mind
  • Create high level design and data flow


Logical design

  • Match critical components and features of VBR with requirements
  • Create logical groupings
  • Determine location of components and relationship to logical grouping
  • Aggregate totals of component resources needed per logical grouping
  • Calculate component (storage, CPU, memory) quantity sizing


Physical/tangible design

  • Convert the logical design into a physical design
  • Physical hardware sizing
  • Create a list of physical Veeam backup components


Implementation and Governance

  • Review physical design and implantation plan
  • Review Veeam deployment hardening
  • Describe the architect’s obligations to the implementation team
  • Provide guidance on implementation specifics that relate to the design


Validation and Iteration

  • Provide framework for how to test the design
  • Further develop the design according to a modification scenario