Cloud Architect Masters Program

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Course Overview : Cloud Architect Masters Program

This live-learning course, authored by AWS, offers in-depth training on designing, deploying, and managing scalable solutions on AWS—equipping you for success in today’s fast-evolving tech landscape.

Key Features

  • Career Support by Nvidya

    Stand out to top employers with dedicated job-readiness resources and career guidance.

  • Azure Exam Voucher Included

    Receive a free Microsoft Azure exam voucher for any one Azure certification course.

  • Microsoft Course Badge & Certificate

    Earn official completion credentials on the Microsoft Learn platform.

  • Authorized AWS Learning Material

    Get access to exclusive AWS-authored self-paced learning content.

  • Verified Microsoft Transcript

    Showcase your skills with an official Microsoft transcript upon course completion.

  • Master 40+ Cloud Skills & 25+ Services

    Build comprehensive expertise in core cloud tools, platforms, and services.

  • Lifetime Access to Resources

    Revisit class recordings and self-paced content anytime with unlimited access.

  • Global Teaching Assistance

    Get 24/7 support from Nvidya’s team of cloud learning experts worldwide.

  • Hands-on Practice with Industry Tools

    Work with real tools like AWS Lambda, Azure Container Services, IAM, Amazon Inspector, Azure Blob Storage, and more.

  • Exam-Focused AWS Content

    Learn from a curriculum tailored to the latest AWS SAA-C03 certification exam.

Skills Covered

  • Identity and Access Management
  • VPC Design and Implementation
  • AWS solution planning
  • Designing resilient AWS implementations
  • AWS implementation optimization
  • AWS architecture best practice
  • AWS cost estimation
  • AWS data IO
  • Azure architecture and services
  • Azure deployment and monitoring
  • Azure management and governance
  • Azure subscriptions and governance
  • Account Configuration amp Storage
  • Azure Resource Monitoring
  • Azure Blob Storage
  • Virtual Machines creation
  • Azure IaaS based server apps

Career Benefits of Cloud Architect Masters Program

Nvidya’s Cloud Architect Certification equips you to succeed in top cloud certification exams, including AWS and Azure. Through immersive hands-on labs and real-world capstone projects, you'll gain practical expertise in key cloud platforms and tools. With dedicated career support services, you'll be well-positioned to advance your professional journey in the cloud domain.

Power Your Cloud Career with AWS

Instructor-led
Learn from expert instructors in live, online sessions.
Get 24/7 learner support and access two full-length mock exams.
Choose a schedule that fits your availability.

$1149

Corporate Training
Choose from flexible pricing and billing options.
Join private cohorts tailored to your teams.
Track your training progress with intuitive dashboards.
Assess and benchmark your skills easily. Integrate seamlessly with your existing platforms.
Get support from a dedicated Customer Success Manager

Eligibility for Cloud Architect Masters Program

To enroll in Nvidya’s Cloud Architect Certification Program, applicants are typically expected to hold a bachelor’s degree in a relevant field. 

This course is ideal for both beginners and experienced professionals.

Prerequisites

While having prior knowledge of cloud computing can be beneficial, it is not mandatory. No previous work experience is required, making it accessible to aspiring cloud professionals at any stage of their career.

Course Content: Cloud Architect Masters Program

Module: AWS Solution Architect-Self-Paced Learning Curriculum
Section 01 – Course Introduction

1.01 Introduction to AWS
1.02 Course Components and Exam Format

2.01 Overview of AWS
2.02 AWS Infrastructure: Part 1
2.03 AWS Infrastructure: Part 2
2.04 AWS Infrastructure: Part 3
2.05 AWS Infrastructure: Part 4
2.06 Overview of AWS Core Services
2.07 Amazon EC2
2.08 EKS
2.09 Lightsail
2.10 AWS Batch
2.11 Elastic Beanstalk
2.12 AWS Fargate
2.13 AWS Lambda
2.14 SAR Serverless Application Repository
2.15 Storage Service
2.16 S3 Simple Storage Service
2.17 EFS – Elastic File System
2.18 EBS – Elastic Block Storage
2.19 AWS Backup
2.20 Storage Gateway
2.21 Data Sync
2.22 AWS Transfer Family
2.23 AWS Snow Family
2.24 Database Services
2.25 RDS – Relational Database Services
2.26 Amazon Redshift
2.27 DynamoDB
2.28 Elasticache
2.29 DocumentDB
2.30 Neptune
2.31 QLDB – Quantum Ledger Database
2.32 AWS Account Set Up
2.33 AWS Free Tier
2.34 Introduction to AWS Management Console
2.35 AWS Billing
2.36 AWS Support
2.37 Billing Alerts
2.38 Delegate Access
2.39 Delegate Access Using IAM Roles
2.40 AWS Identity and Access Management (IAM)
2.41 IAM Features
2.42 Accessing IAM
2.43 Working of IAM
2.44 IAM Users
2.45 AWS Command Line Interface (AWS CLI)
2.46 Key Takeaways

3.01 Learning Objective
3.03 Placement Group
3.04 Cluster Placement Groups
3.05 Spread Placement Groups
3.06 EC2 Instance Metadata
3.09 EC2
3.10 Spot Instance Interruptions
3.11 Reasons for Interruption
3.12 Hibernation for EC2 Instances
3.14 EBS
3.15 Amazon EBS vs. Instance Store
3.16 EBS Security
3.17 Amazon Elastic Load Balancing
3.18 What is AWS Lambda?
3.24 ELB Logs
3.25 Auto Scaling
3.28 Key Takeaways

4.01 Learning Objective
4.02 Introduction to Amazon S3
4.03 Components of Amazon S3
4.04 Amazon S3 Storage Classes: Part 1
4.05 Amazon S3 Storage Classes: Part 2
4.07 Version Control in Amazon S3: Part 1
4.08 Version Control in Amazon S3: Part 2
4.10 S3 Lifecycle Management
4.13 Access Controls
4.14 Amazon S3 Replication
4.16 Performance Guidance for S3 File Gateway
4.17 Storage Gateway: Part 1
4.18 Storage Gateway: Part 2
4.19 S3 Encryption: Part 1
4.20 S3 Encryption: Part 2
4.22 Elastic File System
4.23 Amazon FSx
4.26 Unauthorized Link Access
4.27 AWS Glue Data
4.29 Amazon Athena
4.31 Key Takeaways

5.01 Learning Objectives
5.02 Firewall Security Group
5.03 Firewall Network ACL (NACL)
5.04 IP Addresses
5.08 VPC Flow Sequence of Steps: Part 1
5.09 VPC Flow Sequence of Steps: Part 2
5.11 Internet Gateways
5.12 Interface Endpoint
5.13 Gateway Endpoints, Peering Connection, and Transit Gateway
5.15 Default VPC, Flow Log, Resource Access Manager, and NAT source
5.18 Private Link and Bastion Host
5.19 AWS Systems Manager
5.20 VPN: Part 1
5.21 VPN: Part 2
5.22 Direct Connect
5.23 Direct Connect Costs
5.24 CloudFront
5.25 Lambda Edge
5.26 CloudFront Security
5.30 Amazon Global Accelerator
5.31 AWS Global Audience
5.33 Route 53
5.34 Introduction to DNS
5.35 Route 53 Policies
5.36 Route 53 Health Checks and Best Practices
5.37 Route 53 Limitations and Prices
5.38 Key Takeaways

6.01 Learning Objectives
6.02 Introduction to Databases
6.03 Introduction to Relational Database Service (RDS)
6.04 RDS: Part 1
6.05 RDS: Part 2
6.06 Read Replicas and RDS Costs
6.07 Introduction to Amazon Aurora
6.08 Aurora DB Cluster Types and Aurora Serverless
6.09 Aurora Multi Master and Costs
6.10 Introduction to Amazon DynamoDB
6.11 Global Tables Read and Write Operations
6.12 Global and Local Secondary Indexes
6.13 Amazon DynamoDB: Benefits, Case Study, and Costs
6.14 Amazon DynamoDB: Features
6.15 Apache Cassandra and Amazon DocumentDB
6.16 Introduction to Amazon ElastiCache
6.17 Amazon ElastiCache for Redis and Memcached
6.18 Amazon Redshift
6.23 Key Takeaways

7.01 Learning Objectives
7.02 Responsibility Models in AWS
7.03 Federation
7.04 Security is Job Zero – AWS Security Process
7.05 AWS IAM
7.06 What is IAM Policy?
7.07 Inline Policy
7.08 Amazon Resource Naming (ARN)
7.09 AWS Service Principal
7.10 Principle
7.11 Resources
7.12 Conditional Access
7.13 Implicit Deny
7.14 Permission Boundary
7.15 IAM Roles
7.16 Cross Account Policy
7.17 The Confused Deputy
7.18 AWS Cognito
7.19 Cloud Tower
7.26 Cloud Security
7.27 WAF
7.29 Shield
7.30 Benefits of AWS Shield
7.31 Secrets Manager
7.32 Secrets Manager Administrator Permissions
7.33 Secrets Manager Concepts
7.34 Systems Manager
7.35 AWS Config
7.37 AWS Inspector Trusted Advisor
7.38 AWS Inspector: Access
7.39 Trusted Advisor
7.42 GuardDuty
7.43 GuardDuty Managing Findings from Multiple Accounts
7.44 Available Regions
7.45 Macie
7.46 Other Security Services
7.47 Setting Up Integration with AWS Security Hub
7.48 Detective
7.49 IAM Access Analyzer
7.50 Patch Manager
7.51 Key Takeaways

8.01 Learning Objectives
8.02 Lambda: Part 1
8.03 Lambda: Part 2
8.06 API Gateway
8.08 SQS Introduction
8.09 SQS Security and Performance
8.12 SNS
8.13 EventBridge
8.15 Kinesis: Part 1
8.16 Kinesis: Part 2
8.19 Key Takeaways

9.01 Learning Objectives
9.02 CloudWatch
9.03 CloudWatch Metrics
9.04 CloudWatch Alarms
9.05 CloudWatch Logs
9.08 Introduction to CloudFormation and Concepts
9.09 Types of Templates
9.10 Condition Section
9.16 Intrinsic Functions and Pseudo Parameters
9.19 CloudFormation Best Practice
9.20 Key Takeaways

10.01 Learning Objectives
10.02 Containers and Container Orchestration
10.03 Amazon Elastic Container Registry (ECR)
10.04 Amazon Elastic Container Service (ECS)
10.05 ECS Launch Types and Use Cases
10.06 Dynamic Port Mapping
10.11 AWS Fargate
10.14 Key Takeaways

Course-End Project

Section 01 – Course-End Project

1.1 Introduction
1.2 What is Cloud Computing
1.3 What is CC
1.4 Benefits of Cloud Computing
1.5 Key Concepts and Terminology
1.6 Economies of Scale
1.7 Capex vs Opex
1.8 Public Cloud
1.9 Characteristics of Public Cloud
1.10 Private Cloud
1.11 Characteristics of Private Cloud
1.12 Hybrid Cloud
1.13 Characteristics of Hybrid Cloud
1.14 Review and What Next
1.15 IaaS
1.16 Use Cases of IaaS
1.17 What is PaaS
1.18 Common Scenarios – PaaS
1.19 What is SaaS
1.20 Shared Responsibility Model

2.1 Introduction
2.2 Azure Regions
2.3 Special Azure Regions
2.4 Region Pairs
2.5 Feature Availability Region Wise
2.6 Availability Zones
2.7 Availability Sets
2.8 What are Resource Groups
2.9 Azure Resource Manager
2.10 Azure Core Services and Products
2.11 What is Azure Compute
2.12 Azure Virtual Machines – Audiocast Only
2.13 Virtual Machines I – Lab
2.14 Virtual Machines II – Lab
2.15 Virtual Machines III – Lab
2.16 Virtual Machines IV – Lab
2.17 Virtual Machines V – Lab
2.18 Virtual Machines VI – Lab
2.19 What are Containers
2.20 Containers – Lab Activity
2.21 What Are Virtual Networks
2.22 Virtual Networks – Lab
2.23 Azure Load Balancer
2.24 VPN Gateway
2.25 Azure Application Gateway I
2.26 Azure Content Delivery Networks (CDNs)
2.27 Azure Storage Services
2.28 Structured Data
2.29 Semi-Structured Data
2.30 Unstructured Data
2.31 Azure Database Services
2.32 Azure SQL – Lab Demo
2.33 Azure Marketplace
2.34 What is Internet of Things (IoT) – Intro
2.35 IoT Hub
2.36 (Intentionally Skipped)
2.37 Azure Big Data and Analytics
2.38 Azure SQL Data Warehouse
2.39 Azure HDInsights
2.40 Azure Data Lake Analytics
2.41 Machine Learning
2.42 What is Serverless Computing
2.43 The Concept of DevOps
2.44 Azure Management Tools
2.45 Creating Resources with PowerShell – Lab Activity
2.46 Creating Resources with Azure CLI – Lab Activity
2.47 Provision Resources using Cloud Shell – Lab Activity
2.48 Azure Advisor
2.49 What Did We Learn

3.1 What to Expect in Module 3
3.2 Azure Firewalls
3.3 Azure Firewall – Lab Activity – Notes
3.4 Azure Firewall – Lab Activity
3.5 Azure DDoS
3.6 Network Security Groups
3.7 Application Security Groups
3.8 Which Network Security Solution to Choose From
3.9 Authentication and Authorization
3.10 Azure Active Directory
3.11 Multi-Factor Authentication
3.12 Azure Security Center
3.13 Azure Security Center – Lab Activity
3.14 Azure Key Vault
3.15 Azure Information Protection
3.16 Azure Advanced Threat Protection
3.17 What is Azure Policy
3.18 Azure Policy – Lab Activity
3.19 Azure Role-Based Access Control (RBAC)
3.20 Azure Role-Based Access Control (RBAC) – Lab Activity
3.21 Azure Locks
3.22 Azure Locks – Lab Activity
3.23 Azure Blueprints
3.24 Subscription Governance
3.25 Azure Tags
3.26 Azure Monitoring
3.27 Azure Monitoring – Lab Activity
3.28 Azure Service Health
3.29 Monitoring Applications and Services
3.30 Compliance Terms and Requirements
3.31 Microsoft Privacy Statement
3.32 Microsoft Trust Center
3.33 Service Trust Portal
3.34 Azure Government Services
3.35 Azure Germany Services
3.36 Azure China

4.1 Module 4 Introduction – What to Expect in This Module
4.2 Azure Subscriptions
4.3 What are Management Groups
4.4 Purchase Azure Product & Services – Available Options
4.5 Usage Metrics
4.6 Factors Affecting Costs
4.7 The Concept of Zones for Billing
4.8 Azure Pricing Calculator
4.9 Azure Total Cost of Ownership (TCO)
4.10 Ways to Minimize Costs in Azure
4.11 Azure Cost Management
4.12 Azure Support Plans
4.13 Alternative Support Options
4.14 Service Level Agreements (SLAs)
4.15 Composite SLAs
4.16 Improving Application SLAs
4.17 Public and Features
4.18 Providing Feedback
4.19 General Availability
4.20 Azure Updates, Announcements, and Roadmaps
4.21 Conclusion

1.01 Course Introduction
1.02 What Will You Learn

2.01 Introduction
2.02 Azure Administrative Tools
2.06 Azure Tags
2.07 Managing Subscriptions and Implementing Cost Management
2.08 Resource Manager and Resource Groups
2.09 Managing Resources
2.10 ARM Template
2.12 Cost Saving
2.13 Management Group Creation and Introduction to Azure Policy
2.14 Overview of Implementing Azure Policy
2.15 Implementing Azure Policy and Azure Policy Definitions
2.17 Role-Based Access Control (RBAC) and Role Assignment
2.18 Creating a Role Definition and Role Assignment
2.19 Evolution of Azure RBAC Roles
2.21 RBAC Roles and Resource Manager Locks
2.23 Introduction to Azure Active Directory
2.24 AD DS vs. Active Directory and Azure Active Directory Editions
2.25 Implementing AD Join and Self-Service
2.26 Creating and Managing User Accounts in Azure
2.27 Creating Group Accounts and Administrative Units
2.31 Quick Recap

3.01 Introduction
3.02 Azure Storage: Features, Services, and Account Types
3.03 Determine Replication Strategies
3.05 Access and Secure Azure Storage Accounts
3.06 Implement Blob Storage
3.08 Access Tiers and Lifecycle Management of Azure Storage
3.10 Blob Object Replication and Blob Types
3.11 Storage Pricing and Security Capabilities
3.12 Creating Shared Access Signatures (SAS)
3.14 Storage Service Encryption (SSE) and Encryption Keys
3.15 Storage Security Best Practices
3.16 Compare Azure Files to Azure Blobs
3.17 Overview of File Share Snapshot
3.20 Overview of Azure File Sync
3.22 Configure Storage with Tools
3.25 Quick Recap

4.01 Introduction
4.02 Cloud Service Responsibilities
4.03 Planning Virtual Machines
4.04 Determine Virtual Machine Sizing and Storage
4.05 Create Virtual Machines
4.07 Accessing Virtual Machines in Azure – Windows and Linux
4.11 Plan for Maintenance and Downtime
4.12 Availability Sets
4.13 Update and Fault Domains
4.14 Availability Zone
4.15 Vertical Scaling vs. Horizontal Scaling
4.16 Virtual Machine Scale Sets
4.18 Implement and Configure Autoscaling
4.19 Implement Custom Script Extensions
4.22 Azure App Service Plans
4.23 Azure App Service Plan Scaling and Implementation
4.25 Continuous Integration and Deployment
4.26 Deployment Slots
4.27 Secure App Service
4.28 Create Custom Domain Names
4.29 Features of Backup and Application Insights
4.30 Containers vs. Virtual Machine
4.31 Features and Benefits of Azure Container Instances and Container Groups
4.32 Understanding the Docker Platform
4.33 Understanding AKS Terminology – Clusters and Nodes
4.34 Configure AKS Storage
4.36 Azure Automation – Configuration and Implement Desired State Configuration
4.38 Recap

5.01 Spotlight

6.01 Introduction
6.02 Virtual Network
6.03 Subnets
6.04 Address
6.05 Types of IP Address
6.07 Implementing NSG and Determining and Creating NSG Rules
6.09 Create Azure Firewall Rules
6.11 Azure Domain Name Service
6.13 DNS Domains and Record Sets
6.14 Private DNS Zones
6.16 VNet Peering Connections
6.18 Determine Gateway Transits, VNet Peering, and Service Chaining Uses
6.19 VPN Gateway Uses
6.20 Create VPN Gateway
6.21 Determine VPN Gateway Type, SKU, and Generation
6.22 Create Local Network Gateway – On-Premises VPN Device Connection
6.23 Determine High Availability Scenarios
6.25 Azure ExpressRoute
6.26 Site-to-Site ExpressRoute Coexistence and Comparison of Intersite
6.27 Virtual WAN
6.28 Virtual System Routes and User Defined Routes
6.29 Service Endpoint and Azure Private Link
6.31 Azure Load Balancer – Public and Internal
6.32 Determine Load Balancer SKUs and Backend Pool Configuration
6.33 Load Balancer Rules, Azure Load Balancer, and Session Persistence
6.34 Health Probe
6.36 Application Gateway
6.37 Application Gateway: Routing
6.38 Application Gateway: Components
6.39 Recap

7.01 Introduction
7.02 Azure Backup Center and Recovery Services Vault
7.03 Configure On-Premises Backup and Azure Recovery Services Agent
7.05 Backup of VMs
7.06 Backup and Restore Azure Virtual Machines
7.07 Microsoft Azure Backup Server
7.08 Compare Backup Options
7.09 Manage Soft Delete
7.10 Implement Azure Site Recovery
7.13 Azure Monitor
7.14 Azure Monitor Data Platform and Data Sources
7.15 Activity Log Event and Querying the Activity Logs
7.16 Managing and Creating Azure Alert Rules
7.18 Determining Log Analytics Uses and Creating Workspace
7.19 Creating Connected Sources and Data Sources
7.20 Log Analytics Data Structuring and Log Analytics Queries
7.22 Network Watcher Features and Components
7.23 Quick Recap

8.01 Spotlight

1.01 About Nvidya
1.02 SL Training Catalog
1.03 What is Cloud Computing?
1.04 Skills in this Course
1.05 Why This Course?
1.06 Curriculum
1.07 Pre-requisite
1.08 Course Components
1.09 Career Benefits for an Azure Administrator

2.01 Manage Azure Identities and Governance
2.02 Use the Azure Portal
2.03 Assisted Practice: Creating a Microsoft Azure Account
2.04 Use Azure Cloud Shell
2.05 Use Azure PowerShell
2.06 Assisted Practice: Working With Azure PowerShell
2.07 Use Azure CLI
2.08 Assisted Practice: Working With Azure CLI
2.09 Azure Tags
2.10 Implement and Obtain a Subscription
2.11 Identify Subscription Usage
2.12 Implement Cost Management
2.13 Introduction to Resource Manager and Resource Group
2.14 ARM Templates
2.15 Assisted Practice: Quickstart Templates
2.16 Cost Savings

3.01 Manage Role-Based Access Control (RBAC)
3.02 Management of Group Creation
3.03 Introduction to Azure Policy
3.04 Assisted Practice: Implementing an Azure Policy
3.05 Implement Role-Based Access Control
3.06 Assisted Practice: Create a Role Definition
3.07 Configure Resource Locks
3.08 Assisted Practice: Apply Resource Locks

4.01 Introduction to Azure Directory and Its Benefit
4.02 Describe Azure Active Directory Concepts
4.03 Compare AD DS to Active Directory
4.04 Azure Active Directory Editions
4.05 Implement AD Join
4.06 Implement Self-Service Password Reset
4.07 Create and Manage User Accounts
4.08 Create Bulk User Account
4.09 Create Group Account
4.10 Assisted Practice: Create Users and Group Account
4.11 Assisted Practice: Insert Guest Users to Directory
4.12 Administrative Unit
4.13 Assisted Practice: Create Administrative Unit
4.14 Knowledge Check
4.15 Lesson End Project

5.01 Implement Azure Storage
5.02 Explore Azure Storage Services
5.03 Determine Storage Account Kind
5.04 Replication Strategies
5.05 Assisted Practice: Create a Storage Account Using Portal
5.06 Assisted Practice: Create a Storage Account Using CLI
5.07 Access Storage
5.08 Secure Storage Endpoint
5.09 Implement Blob Storage
5.10 Create Blob Storage
5.11 Assisted Practice: Creation of Blob Storage
5.12 Create Blob Access Tiers
5.13 Add Blob Lifecycle Management Rules
5.14 Assisted Practice: Blob Lifecycle Management Rules and Replication
5.15 Determine Blob Object Replication
5.16 Blob Upload Tools
5.17 Determining Storage Pricing
5.18 Review Storage Security Strategies
5.19 Create Shared Access Signature and Identify URI
5.20 Assisted Practice: Create Shared Access Signatures
5.21 Determine Storage Account Encryption
5.22 Create Customer Keys
5.23 Storage Security Best Practices

6.01 Configure Azure Files
6.02 Comparison Between Files and Blobs
6.03 Manage File Share and Snapshots
6.04 Assisted Practice: Manage/Mount File Share
6.05 Assisted Practice: Create File Share Snapshot
6.06 Implement File Sync
6.07 Identify File Sync Components
6.08 Setup File Sync
6.09 Assisted Practice: Deploy File Sync

7.01 Configure Storage with Tools
7.02 Use Storage Explorer
7.03 Assisted Practice: Azure Storage Explorer
7.04 Use Import/Export Service
7.05 Use AzCopy
7.06 Assisted Practice: AzCopy
7.07 Knowledge Check
7.08 Lesson End Project

8.01 Cloud Service Responsibilities
8.02 Plan Virtual Machines
8.03 Determine Virtual Machine Sizing
8.04 Determine Virtual Machine Storage
8.05 Assisted Practice: Create Virtual Machine from Portal
8.06 Connect to a Virtual Machine
8.07 Assisted Practice: Connect to a Windows Virtual Machine
8.08 Assisted Practice: Connect to a Linux Virtual Machine
8.09 Assisted Practice: Explore Other VM Images
8.10 Plan for Maintenance and Downtime
8.11 Setup Availability Sets
8.12 Fault Domain and Update Domain
8.13 Availability Zone and Scaling
8.14 Create and Implement Scale Sets
8.15 Assisted Practice: Create Scale Sets
8.16 Implement and Configure Autoscaling
8.17 Assisted Practice: Configure Autoscaling
8.18 Implement Virtual Machines Extensions
8.19 Implement Custom Script Extensions
8.20 Assisted Practice: Query System and Runtime Information About the VM

9.01 App Service Plan Pricing
9.02 Scaling Up the App Service Plan
9.03 Configure Your App Service Plan Scaling
9.04 Assisted Practice: Scale Up App Service
9.05 Implement Azure App Service Plan
9.06 Assisted Practice: Deploy Your Code to App Service
9.07 App Service Config (Continuous Integration, Deployment Slot, Securing, Backup, and Monitoring)

10.01 Containers vs Virtual Machine
10.02 Explore ACI Benefits
10.03 Implement Container Groups
10.04 Understand Docker Platform
10.05 Understand AKS Terminology
10.06 AKS Cluster and Node Architecture
10.07 Assisted Practice: Creating an AKS Cluster
10.08 AKS Networking and Storage
10.09 AKS Scaling
10.10 Assisted Practice: Deploy a Python App to AKS
10.11 Intro to Azure Automatic State Configuration
10.12 PowerShell DSC
10.13 Use PowerShell DSC to Achieve Desired State Config
10.14 Assisted Practice: Set Up a DSC and Configure a Desired State
10.15 Knowledge Check
10.16 Lesson End Project

11.01 Plan Virtual Network, Subnet, and IP Addressing
11.02 Assisted Practice: Create Subnet and VNet
11.03 IP Addressing
11.04 Introduction to NSG and Firewall
11.05 Assisted Practice: Creation of NSG
11.06 Determine Azure Firewall Use
11.07 Create Azure Firewall and Rules
11.08 Assisted Practice: Create Azure Firewall Rules
11.09 Identify and Verify Custom Domains
11.10 Create DNS Zones
11.11 Assisted Practice: Create DNS Zones
11.12 Delegate DNS Zone and Delegate It
11.13 Plan for Private DNS Zones
11.14 Assisted Practice: Private DNS Zones

12.01 VNet Peering
12.02 Determine Gateway Transit and Connectivity Needs
12.03 Create VNet Peering
12.04 Assisted Practice: Configure VNet Peering
12.05 Determine Service Chaining Use
12.06 VPN Gateway Use, SKU, and Create S2S Connections
12.07 Assisted Practice: Create a VPN Gateway
12.08 Determine ExpressRoute Uses, Capabilities, and Comparison
12.09 Determine Virtual WAN Uses

13.01 Review System Routes and User Defined Routes
13.02 Determine Service Endpoint Uses
13.03 Identify Private Link Uses
13.04 Assisted Practice: Create an NVA
13.05 Implement and Configure Load Balancers
13.06 Assisted Practice: Configure a Load Balancer
13.07 Implement Azure Application Gateway
13.08 Knowledge Check
13.09 Lesson End Project

14.01 Implement Azure Backup Center
14.02 Configure Recovery Services Vault Backup Options
14.03 Implement On-Premises File and Folder Backup
14.04 Configure the Microsoft Azure Recovery Services Agent
14.05 Assisted Practice: Backup Azure File Share
14.06 Protect Virtual Machine Data
14.07 Create Virtual Machine Snapshot
14.08 Backup and Restore Virtual Machine
14.09 Implement Azure Backup Server
14.10 Compare Backup Options
14.11 Manage Soft Delete
14.12 Implement Site Recovery
14.13 Assisted Practice: Create a Virtual Machine Backup

15.01 Describe Azure Monitor Key Capabilities
15.02 Understand Azure Monitor Components
15.03 Define Metrics and Logs
15.04 Identify Data Type
15.05 Describe Activity Logs Event
15.06 Query the Activity Logs
15.07 Assisted Practice: Enable Disaster Recovery for Azure VMs
15.08 Manage Azure Monitor Alerts
15.09 Create Alert Rules
15.10 Create Action Group
15.11 Determine Log Analytics Usage
15.12 Create and Define Data Source
15.13 Visualize and Structure Log Analytics Data
15.14 Assisted Practice: Set Up a Log Analytics Workspace
15.15 Describe Network Watcher Features and Components
15.16 Knowledge Check
15.17 Lesson End Project

Course End Project

Section 1: Course End Project

1.01 Course Introduction
1.02 What Will You Learn

2.01 Learning Objectives
2.02 Azure Overview
2.03 Azure Design Governance
2.04 Azure Subscription and Accounts
2.05 Tagging
2.06 Solution for Azure Blueprints
2.07 Solution for Using Azure Policy
2.09 Recap

3.01 Learning Objectives
3.02 Azure Active Directory
3.03 Azure Active Directory Licenses
3.04 Solution for Single-Sign On
3.05 Solution for Authentication
3.06 Solution for Conditional Access
3.07 Solution for Managed Identity
3.08 Solution for Key Vault
3.09 Solution for Hybrid Identities
3.10 Solution for Self-Service
3.11 Solution for B2B Integration
3.13 Recap

4.01 Learning Objectives
4.02 Choosing an Authorization Approach
4.03 Access Management Solution
4.04 Azure AD Privileged Identity Management
4.05 Hierarchical Structure for Access Control
4.08 Recap

5.01 Spotlight

6.01 Learning Objectives
6.02 Monitoring Tools
6.03 Azure Monitor Health and Availability Monitoring
6.04 Initiating Automated Response Using Action Groups
6.05 Configure and Manage Alerts
6.08 Recap

7.01 Learning Objectives
7.02 Architecture Best Practices for Reliability into Categories
7.03 Solution for Recovery in Different Regions
7.04 Solution for Azure Backup Management
7.05 Solution for Data Archiving and Retention
7.11 Recap

8.01 Learning Objectives
8.02 Architectural Best Practices for Reliability
8.03 Azure Service Dependencies
8.04 Solution for Azure Site Recovery
8.05 Snapshots and Recovery Points
8.09 Recap

9.01 Learning Objectives
9.02 Azure Non-Relational Data
9.03 Azure Storage Account
9.04 Solution for Encrypting Data
9.05 Storage Service Encryption
9.07 Recap

10.01 Spotlight

11.01 Learning Objectives
11.02 Azure SQL Database
11.03 Deployment Options for Azure SQL Database
11.04 Pricing Model for Azure SQL
11.05 Azure SQL Edge
11.06 Cosmos DB
11.08 Recap

12.01 Learning Objectives
12.02 Modern Data Platform Reference Architecture
12.03 Solution for Data Integration
12.04 Azure Synapse Analytics
12.05 Design a Strategy for Hot, Warm, and Cold Data Path
12.06 Design Azure Stream Analytics
12.07 Recap

13.01 Learning Objectives
13.02 Solution for Compute Provisioning
13.03 Solution for App Service
13.04 Solution for Containers
13.05 Solution for Automating Compute Management
13.07 Recap

14.01 Learning Objectives
14.02 Message and Event Scenario
14.03 Messaging Solution
14.04 Designing an Event Solution
14.05 Features of Azure Kubernetes Service
14.06 Orchestration Solution for Deployment and Maintenance of Applications
14.07 Design Application Lifecycle
14.09 Recap

15.01 Spotlight

16.01 Learning Objectives
16.02 Network Architecture
16.03 Technologies Used to Choose Architecture
16.04 Solution for Network Addressing and Name Resolution
16.05 Solution for Network Provisioning
16.06 Solution for Network Security
16.07 Solution for Network Connectivity
16.08 Solution for Automating Network Management
16.09 Solution for Load Balancing and Traffic Routing
16.13 Recap

17.01 Learning Objectives
17.02 Migration with Cloud Framework
17.03 Azure Migration Framework
17.04 Accessing Workloads
17.05 Migration Tools
17.06 Migrating Databases
17.07 Uses of Data Box Devices
17.11 Recap

18.01 Learning Objectives
18.02 Solution for Cost Management
18.03 Cost Design Principles
18.04 Optimizing Costs from Recommendations
18.05 Cost Optimization Checklists
18.07 Recap

19.01 Spotlight

1.01 About Nvidya
1.02 Prerequisite
1.03 Introduction to Cloud Computing
1.04 Benefits of Cloud Computing
1.05 Skills to Be Covered
1.06 Why This Course?
1.07 Curriculum
1.08 Course Components
1.09 Career Benefits for an Azure Solutions Architect

2.01 Design Governance
2.02 Design for Management Groups and Subscriptions
2.03 Design for Resource Groups
2.04 Recommend a Strategy for Tagging
2.05 Recommend a Solution for Using Azure Policy
2.06 Assisted Practice: Azure Policy Creation
2.07 Assisted Practice: Assign a Built-in Azure Policy to an Azure Resource Group
2.08 Recommend a Solution for Using Azure Blueprints
2.09 Knowledge Check
2.10 Section-End Project

3.01 Microsoft Entra ID
3.02 Recommend a Solution for Single-Sign On (SSO)
3.03 Recommend a Solution for Authentication
3.04 Recommend a Solution for Conditional Access
3.05 Recommend a Solution that Includes Managed Identities
3.06 Recommend a Solution that Includes Key Vault
3.07 Assisted Practice: Creating an Azure Key Vault
3.08 Recommend a Solution for a Hybrid Identity
3.09 Recommend and Implement a Solution for B2B Integration
3.10 Assisted Practice: Microsoft Entra Join
3.11 Assisted Practice: Creating Microsoft Entra ID User
3.12 Assisted Practice: Creating Microsoft Entra ID Guest User
3.13 Assisted Practice: Microsoft Entra ID Group Creation
3.14 Assisted Practice: Add Microsoft Entra ID Authentication for Storage
3.15 Unassisted Practice: Microsoft Entra ID Custom Domain Creation
3.16 Knowledge Check

4.01 Choose an Authorization Approach
4.02 Recommend an Access Management Solution
4.03 Assisted Practice: Microsoft Entra ID Privileged Identity Management
4.04 Knowledge Check

5.01 Design for Azure Workbooks and Azure Insights
5.02 Recommend Appropriate Monitoring Tools for a Solution
5.03 Azure Monitoring
5.04 Health and Availability Monitoring
5.05 Cost Monitoring
5.06 Advanced Logging
5.07 Choose a Mechanism for Event Routing and Escalation
5.08 Assisted Practice: Azure Monitor
5.09 Knowledge Check

6.01 Identify the Availability Requirements for Azure Resources
6.02 Assisted Practice: Virtual Machine Availability Set
6.03 Assisted Practice: Virtual Machine Availability Zone
6.04 Azure Front Door
6.05 Assisted Practice: Azure Front Door Service
6.06 Azure Traffic Manager
6.07 Assisted Practice: Azure Traffic Manager
6.08 Recommend a High Availability Solution for Compute
6.09 Assisted Practice: Azure Virtual Machines Scale Sets
6.10 Recommend a High Availability Solution for Relational Data Storage
6.11 Assisted Practice: Azure SQL DB Geo-Replication
6.12 Identify Storage Types for High Availability
6.13 Knowledge Check
6.14 Section-End Project

7.01 Recommend a Recovery Solution for Azure Workloads
7.02 Recommend a Solution for Azure Backup Management
7.03 Design a Solution for Data Archiving and Retention
7.04 Design an Azure Site Recovery Solution
7.05 Assisted Practice: Azure Site Recovery
7.06 Recommend a Solution for Recovery in Different Regions
7.07 Knowledge Check
7.08 Section-End Project

8.01 Overview of Azure Non-Relational Data
8.02 Storage Account
8.03 Design for Azure Blob Storage
8.04 Azure Files
8.05 Design for Azure Disk Solutions
8.06 Storage Security
8.07 Assisted Practice: Manage Azure Storage
8.08 Assisted Practice: Manage Storage Access Keys
8.09 Recommend a Solution for Encrypting Data
8.10 Knowledge Check

9.01 Select an Appropriate Data Platform Based on Requirements
9.02 Recommend Database Service Tier Sizing
9.03 Recommend a Solution for Database Scalability
9.04 Assisted Practice: Azure SQL DB
9.05 Design Security for Data
9.06 Design for Azure SQL Edge
9.07 Design for Azure Cosmos DB
9.08 Assisted Practice: Managing Cosmos DB
9.09 Knowledge Check
9.10 Section-End Project

10.01 Recommend a Data Flow to Meet Business Requirements
10.02 Recommend a Solution for Data Integration
10.03 Design a Strategy for Hot, Warm, Cold Data Path
10.04 Design Azure Stream Analytics Solution for Data Analysis
10.05 Knowledge Check

11.01 Recommend a Solution for Compute Provisioning
11.02 Assisted Practice: Creating a Virtual Machine
11.03 Unassisted Practice: Manage VM Sizes
11.04 Recommend a Solution for App Service
11.05 Determine Appropriate Compute Technologies
11.06 Recommend a Solution for Containers
11.07 Assisted Practice: Create a Container Instance
11.08 Assisted Practice: Create a Container Registry
11.09 Knowledge Check
11.10 Section-End Project

12.01 Recommend a Microservices Architecture
12.02 Assisted Practice: Azure Kubernetes Service
12.03 Recommend an Orchestration Solution for Deployment and Maintenance of Applications
12.04 Assisted Practice: ARM Template
12.05 Recommend a Solution for API Integration
12.06 Knowledge Check
12.07 Section-End Project

13.01 Recommend a Network Architecture
13.02 Recommend a Solution for Network Provisioning
13.03 Recommend Solutions for Network Security
13.04 Recommend Solutions for Network Connectivity
13.05 Assisted Practice: Creating Virtual Networking and Resolving Domain Names
13.06 Recommend a Solution for Automating Network Management
13.07 Recommend a Solution for Load Balancing and Traffic Routing
13.08 Assisted Practice: Creating Load Balancer
13.09 Assisted Practice: Implement Intersite Connectivity
13.10 Knowledge Check

14.01 Azure Migrate
14.02 Assessments Using Azure Migrate
14.03 Recommend a Solution for Migrating Workloads to IaaS and PaaS
14.04 Assisted Practice: Migrate Azure App Service with Azure Migration Assistant
14.05 Recommend a Solution for Migrating Databases
14.06 Determine Migration Scope
14.07 Recommend a Solution for Migrating Data
14.08 Knowledge Check

15.01 Recommend a Solution for Cost Management and Cost Reporting
15.02 Recommend Solutions to Minimize Costs
15.03 Assisted Practice: Generate Report on Spend
15.04 Unassisted Practice: Billing Alerts
15.05 Knowledge Check

1.01 Deploying an Online Movie Watching Application on Cloud

Attend this course at your own pace to dive deep into the basics of AWS. This optional course will help you establish a strong foundation in AWS and AWS Cloud, which will serve as a benchmark for your upcoming courses.

This course offers a comprehensive introduction to key concepts and practical skills in Google Cloud platform. By the end of this course, students will have a solid foundation in these essential Google Cloud technologies, equipping them with the skills necessary to succeed in cloud-based environments.

Get hands-on exposure to the highly scalable Amazon Web Services (AWS) cloud platform with the AWS SysOps Associate certification training program. This course will help you attain valuable technical expertise in deploying, managing, and operating fault-tolerant systems on AWS.

Enhance your proficiency with the Amazon Web Services (AWS) cloud platform to develop and deploy robust cloud applications with an AWS Developer Associate Certification. This course helps you implement cloud security best practices and understand what it takes to become an AWS Developer Associate.

This Azure Developer Certification training aligns with the latest (2020) edition of Azure Developer Certified Associate exam AZ-204. AZ-204 is the updated version of the existing exam for the Microsoft Azure Developer Associate:AZ-203. This exam verifies your ability to select, develop, and implement Azure cloud technology solutions.

AWS Cloud Technical Essentials

Cloud Architect Masters Program Projects

Project 1: Implement the Azure IaaS

To create test virtual machines in two Azure virtual networks, establish the connectivity between both networks via VNet peering.

To assign a Custom RBAC role to an employee on Azure’s Active Directory to read the network, and configure storage along with VM.

To introduce a serverless functionality to a company’s application workload using Azure Function & Storage Queue.

Exam & Certification FAQs

What are the benefits of completing Microsoft Azure training through Nvidya?

Learners who complete Azure training with Nvidya gain exclusive recognition from Microsoft. This includes receiving an official certificate of completion directly on the Microsoft Learn platform, along with a verified transcript that validates their learning achievements and technical proficiency. These credentials serve as a trusted endorsement of the skills mastered throughout the program.

The Cloud Architect course at Nvidya is designed to equip professionals with comprehensive expertise in cloud computing architecture. The program focuses on building the capabilities needed to design, implement, and manage reliable, secure, and scalable cloud solutions across leading platforms like AWS, Azure, and Google Cloud. Participants gain practical experience with tools such as AWS EC2, Azure App Services, Google Cloud SDK, CloudFormation, Azure Resource Manager, and more—while also preparing for globally recognized certifications.

The role of a Cloud Architect is in high demand as businesses increasingly rely on cloud technologies to drive innovation, scalability, and cost efficiency. Professionals in this role design the digital infrastructure that supports modern applications and services. It's a high-impact, high-paying career path ideal for IT leaders, system administrators, cloud engineers, product managers, and developers seeking to move into strategic, architecture-focused roles.

Nvidya’s Cloud Architect training is packed with real-world, hands-on projects that reflect actual cloud implementation scenarios. Some key projects include:

  • Setting up a WordPress environment using AWS CloudFormation and Auto Scaling
  • Launching a secure Linux testing environment in Amazon EC2
  • Delivering content through Amazon S3 and CloudFront with geo-restrictions
  • Deploying and monitoring high-availability web applications
  • Securing development environments in Microsoft Azure
  • Creating and managing Amazon S3 buckets for cloud data storage

Cloud Architects and DevOps Engineers work closely but have distinct responsibilities. A Cloud Architect focuses on designing the cloud environment—ensuring scalability, reliability, and alignment with business goals. In contrast, a DevOps Engineer handles automation, deployment pipelines, and operational efficiency within that environment. While both roles complement each other, Cloud Architects prioritize design strategy, whereas DevOps emphasizes execution and performance optimization.

Completing Nvidya’s Cloud Architect program opens doors to multiple high-level IT roles. Graduates are well-positioned for roles such as:

  • Cloud Solutions Architect
  • Network Architect
  • Software Architect
  • Cloud Engineer

These positions are critical in modern enterprises aiming to build robust and cost-effective cloud infrastructures.

Nvidya’s Cloud Architect certification does not have a set expiration. However, cloud technologies evolve rapidly, and staying competitive in the job market requires continuous learning. Nvidya encourages all certified professionals to periodically refresh their knowledge and consider advanced certifications as the cloud landscape advances.

This course prepares learners to confidently pursue several industry-leading cloud certifications, including:

  • AWS Certified Solutions Architect – Associate
  • Microsoft Azure Fundamentals (AZ-900)
  • Microsoft Certified: Azure Administrator Associate (AZ-104)
  • Microsoft Certified: Azure Solutions Architect Expert (AZ-305)
CERTIFICATE FOR Cloud Architect Masters Program
THIS CERTIFICATE IS AWARDED TO
Your Name
FOR SUCCESSFUL PARTICIPATION IN
Cloud Architect Masters Program
Issued By NVidya
Certificate ID __________
Date __________

Success Stories

Dev Bhagat
Dev Bhagat

““This course helped me move from an admin role to full-scale cloud architecture with real confidence.””

“I enrolled in Nvidya’s Cloud Architect program while working as a system administrator, hoping to transition into a more strategic cloud role. The course not only gave me hands-on exposure to AWS and Azure, but the real-world projects made it feel like I was solving problems at work. The instructors were excellent—clear, patient, and always connected the dots between theory and application. Within a month of completing the program, I landed my first role as a junior cloud architect. The investment was 100% worth it.”

Apoorv Chauhan
Apoorv Chauhan

““Nvidya’s cloud training gave me a career reboot at 38—I now lead cloud migrations for my company.””

“As someone who’s been in IT for over a decade, I needed to upskill without going back to university. Nvidya’s Cloud Architect program was exactly what I was looking for—industry-relevant, flexible, and challenging enough to push me out of my comfort zone. The practice labs and architectural case studies were particularly impactful. Today, I’m leading Azure migration projects and mentoring my team in cloud best practices. I can confidently say this course redefined my career path.”

Why Choose This Program?

Develop In-Demand Skills

Gain practical expertise crafted with industry and academic input.

Learn from Seasoned Professionals

Learn from seasoned professionals sharing real-world insights and case studies.

Engage in Applied Learning

Build skills through hands-on projects with real data and virtual labs.

Benefit from Continuous Support

Enjoy 24/7 access to mentors and a supportive learning community.

Frequently Asked Questions

What is a Cloud Architect?

A Cloud Architect is a technology leader who designs and implements an organization’s cloud strategy. Their role involves structuring cloud environments, selecting suitable cloud platforms and tools, ensuring data security, and aligning cloud capabilities with business goals. These professionals act as a bridge between business requirements and cloud technology solutions, staying updated on evolving trends to drive innovation and efficiency.

Yes, Nvidya offers customized training solutions designed specifically for teams and organizations. We support businesses in upskilling their workforce through tailored learning paths, role-specific programs, and access to expert-led sessions. Whether you're seeking targeted skill development or enterprise-wide digital transformation, Nvidya partners with you to deliver impactful, results-driven learning experiences.

Most cloud certifications are time-bound and typically remain valid for two to three years, depending on the certification body. To maintain an up-to-date skill set, professionals are encouraged to recertify or complete continuing education programs. This ensures they stay aligned with the latest technologies, tools, and industry standards in the fast-evolving cloud landscape.

Cloud Architects play a central role in building and optimizing an organization’s cloud infrastructure. They evaluate business needs, design scalable cloud solutions, choose appropriate cloud models, and ensure system security and efficiency. Their scope often includes cost optimization, disaster recovery planning, and compliance, making them strategic contributors to both IT and business success.

A Cloud Architect leads the cloud transformation journey within an organization. Their key tasks include creating architectural frameworks, guiding migration strategies, ensuring robust security protocols, and managing cloud performance. At Nvidya, our training empowers aspiring cloud professionals to confidently take on these responsibilities and excel in real-world projects.

Becoming a Cloud Architect requires a solid grasp of cloud platforms such as AWS, Azure, or Google Cloud. In addition to cloud knowledge, professionals should understand networking, system administration, programming fundamentals, and cybersecurity practices. Strong problem-solving abilities and experience in designing enterprise-level systems are also essential to thrive in this role.

Earning a Cloud Architect certification unlocks a wide range of career possibilities in the cloud domain. Below are some common job roles and their average salary ranges in India and the U.S.:

Cloud Engineer
Cloud Engineers design and maintain the infrastructure required to support cloud applications and services. They often work across roles such as solution architect, developer, and administrator.
Average Salary in India: ₹5.2 Lakhs per year
Average Salary in the U.S.: $149,000 per year

Cloud Architect
Cloud Architects are responsible for planning, designing, and deploying scalable and secure cloud strategies across an organization.
Average Salary in India: ₹22.1 Lakhs per year
Average Salary in the U.S.: $128,418 per year

Cloud Developer
These professionals build applications and systems using cloud-native technologies and frameworks, ensuring performance, integration, and scalability.
Average Salary in India: ₹8.5 Lakhs per year
Average Salary in the U.S.: $91,117 per year

Cloud Administrator
Cloud Administrators ensure the smooth operation of cloud infrastructure, manage access controls, and oversee daily monitoring and maintenance.
Average Salary in India: ₹6.0 Lakhs per year
Average Salary in the U.S.: $67,467 per year

Source: Glassdoo

Yes, Nvidya offers a series of hands-on practice tests to prepare learners for industry-recognized certifications. These mock exams are designed to reflect real certification environments and cover various topics, including architecture design, deployment models, and cloud security principles. They help learners assess readiness and gain confidence before taking actual exams.

Our trainers are seasoned professionals with strong expertise in cloud computing, system architecture, and DevOps. Each instructor undergoes a stringent selection process that includes a technical evaluation, teaching demo, and industry experience review. This ensures you receive high-quality instruction from mentors who understand real-world cloud challenges.

Upon certification, learners are equipped for various roles in cloud and infrastructure teams. These include AWS Solutions Architect, Azure Administrator, Cloud Consultant, and Infrastructure Solution Designer. Career levels range from Associate Cloud Architect to Principal Architect, with opportunities to lead digital transformation initiatives and report directly to CTOs or senior IT leadership.

Nvidya offers 24/7 learner support via chat, email, phone, and community forums. Whether you need technical assistance, guidance on the course material, or help navigating your certification path, our support team is always available. Post-completion, learners also receive lifetime access to the discussion forum to stay connected and continue learning.

Learners consistently share positive feedback about Nvidya’s Cloud Architect program. They appreciate the hands-on labs, real-world projects, and expert-led sessions. Many professionals have highlighted how the flexible, self-paced modules helped them balance learning with work. The structured curriculum and practical case studies are often praised for aligning well with current industry needs.

This course is open to both beginners and experienced IT professionals. While a background in computer science, engineering, or a related discipline is recommended, it is not mandatory. Familiarity with basic networking or programming concepts can be beneficial, but no prior cloud experience or work history is required to begin.

Yes, Nvidya offers a wide selection of advanced cloud training programs and certification courses designed to build on foundational skills. These include specialization in tools and platforms such as AWS, Microsoft Azure, Google Cloud Platform (GCP), and DevOps. Learners can further explore:

  • AWS Cloud Architect Training
  • Microsoft Azure Administrator and Solutions Architect Certification
  • GCP Certification Program
  • Cloud Engineer Bootcamp

These programs enable learners to gain deeper expertise in platform-specific and multi-cloud environments.

Not at all. With Nvidya’s 'flexi-learn' system, all live sessions are recorded and available in your learner dashboard. You can access missed lessons anytime, ensuring you stay on track. Watching the session will also update your progress and help you meet the completion criteria without any disruption.

Yes, exam vouchers for Microsoft Azure certifications are included, but availability is limited to select countries. Learners based in India, the USA, Bermuda, Guam, New Caledonia, British Virgin Islands, French Polynesia, US territories, and a few others are eligible for exam voucher access. Be sure to check with Nvidya’s support team to confirm availability in your region.