CloudNetX: Complete Cloud Computing & Networking Bootcamp
Hands-on cloud computing + cloud networking bootcamp that prepares you to design, deploy, and troubleshoot cloud infrastructure across AWS, Azure, and Google Cl...
Hands-on cloud computing + cloud networking bootcamp that prepares you to design, deploy, and troubleshoot cloud infrastructure across AWS, Azure, and Google Cl...
CloudNetX is a practical, project-driven bootcamp that teaches cloud fundamentals, cloud networking (VPC/VNet, routing, peering, load balancing), security best practices, and deployment automation across AWS, Azure, and Google Cloud. Students complete labs and real-world projects (multi-cloud VPC designs, hybrid connectivity, Terraform automation) and are prepared for common industry certifications and cloud networking roles.
- Introduction
- Lesson 2.1.1 Open Systems Interconnection (OSI) Model
- Lesson 2.1.2 Internet Protocol (IP) Addressing
- Lesson 2.1.3 Network Address Translation (NAT)
- Lesson 2.1.4 Networking Protocol
- Lesson 2.1.5 Using Network Protocol
- Lesson 2.1.6 BGP Advanced Routing Protocol
- Introduction
- Lesson 2.1.7 Power and Cooling
- Lesson 2.1.8 TCP/UDP
- Lesson 2.1.9 DNSSEC, DoT, DoH
- DNSSEC, DoT, DoH
- Lesson 2.1.10 Container Networking
- Container Networking
- Lesson 2.1.11 Network Virtual Interfaces
- Mini-Project: The Life of a Network Packet
- Lesson 2.1.12 Lesson Review
0:20:0- Lesson 2.3 Explain Connectivity Solutions for Hybrid Environments
- Lesson 2.3.1 Multiprotocol Label Switching (MPLS)
- Multiprotocol Label Switching (MPLS)
- Lesson 2.3.2 Software-Defined wide area network (SDWAN)
- Software-Defined wide area network (SDWAN)
- Lesson 2.3.3 Cellular
- Lesson 2.3.4 Satellite
- Lesson 2.3.5 Dark Fiber
- Lesson 2.3.6 Direct Internet Access
- Lesson 2.3.7 Metro Network
- Lesson 2.3.8 Public Cloud Connectivity
- Lesson 2.3.9 Remote Access
- Lesson 2.3.10 Application Gateways
- Lesson 2.3.11 Private Platform as a Service (PaaS)
- Lesson 2.3.12 Virtual Private Networks (VPN)
- Mini-Project: Designing a Hybrid Connectivity Strategy
- Lesson Review 2.3.14
0:20:0- Lesson 2.4 Compare Campus Wired Network Components
- Lesson 2.4.1 Layer 2 vs Layer 3
- Lesson 2.4.2 Power over Ethernet (PoE)
- Lesson 2.4.3 Three-Tier Hierarchy
- Lesson 2.4.4 Collapsed Core
- Lesson 2.4.5 Intermediate Distribution Frames (IDF) and Main Distribution Frame (MDF)
- Lesson 2.4.6 Spanning Tree Protocol (STP)
- Lesson 2.4.7 Tagging and Trunking
- Lesson 2.4.8 Bonding
- Lesson 2.4.9 Voice and Video
- Lesson 2.4.10 Customer Premises Equipment (CPE)
- Mini-Project: Designing a Hierarchical Campus Network
- Lesson Review 2.4.11
0:20:0- Lesson 2.5 Compare Campus Wireless Network Components
- Lesson 2.5.1 WiFi Features
- Lesson 2.5.2 Bluetooth Low Energy (BLE)
- Lesson 2.5.3 Near-Field Communication
- Lesson 2.5.4 Long-Range Wide Area Network (LoRaWAN)
- Long-Range Wide Area Network (LoRaWAN)
- Mini-Project: Choosing the Right Wireless Technology
- Lesson Review 2.5.5
0:20:0- Lesson 2.6 Analyze Availability Requirements and Technologies
- Lesson 2.6.1 Load Balancing
- Lesson 2.6.2 High Availability
- Lesson 2.6.3 Link Aggregation
- Lesson 2.6.4 Auto Scaling
- Lesson 2.6.5 Regions and Availability Zones
- Lesson 2.6.6 Content Delivery Networks (CDN)
- Introduction to Content Delivery Networks
- Lesson 2.6.7 Fault Domains
- Lesson 2.6.8 Update Domains
- Lesson 2.6.9 Redundancy
- Mini-Project: Designing a Highly Available Architecture
- Lesson Review 2.6.10
0:20:0- Introduction
- Lesson 3.1.1 Identifying Problems
- Initial Signs of a Cyber Attack
- Lesson 3.1.2 Establishing a Theory of Probable Cause
- Lesson 3.1.3 Theory Testing
- Lesson 3.1.4 Establish a Plan of Action
- Lesson 3.1.5 Implementing Solutions and Escalation
- Implementing Solutions and Escalation
- Lesson 3.1.6 Full System Functionality
- Lesson 3.1.7 Document Findings
- Document Findings
- Mini-Project: Solving a "Slow Application" Ticket
- Lesson Review 3.1.8
0:20:0- Lesson 3.3 Analyze Outputs from Network Tools
- Lesson 3.3.1 Tool Outputs
- Lesson 3.3.2 Command Outputs
- Lesson 3.3.3 Performance Issues
- Lesson 3.3.4 Connectivity Issues
- Lesson 3.3.5 Access and Security Issues
- Mini-Project: Interpreting Network Troubleshooting Outputs
- Lesson Review 3.3.6
0:20:0Basic computer literacy (shell/command line, text editor).
Familiarity with IP addressing/subnetting and basic networking concepts (can be entry level).
Willingness to use cloud provider free tiers or lab environment (some labs require cloud accounts or lab credits).
Optional but recommended: basic Linux/Windows server command experience and one programming/scripting language (bash, Python, or PowerShell).
Design and implement cloud networks — create secure, highly available VPC/VNet architectures across AWS, Azure, and GCP.
Deploy infrastructure as code — use Terraform (and basic CloudFormation/ARM/GCP Deployment Manager concepts) to provision networking and compute resources.
Configure hybrid & multi-cloud connectivity — implement VPNs, peering, transit gateways, and hybrid on-prem <> cloud links.
Apply cloud security best practices — secure networks with firewalls/security groups, IAM roles, network ACLs, and DDoS/edge protections.
Troubleshoot and optimize cloud networks — diagnose routing, latency, and performance issues and apply cost/architecture optimizations.
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Last Updated
Sep 20, 2025
Students
99+
language
English
Duration
10h++Level
beginner
Expiry period
Lifetime
Certificate
Yes
English
Certificate Course
99+ Students
10h++