Free Coupon CloudNetX (V1) PRACTICE EXAM [100% OFF]

CloudNetX (V1) PRACTICE EXAM

Free Coupon CloudNetX (V1) PRACTICE EXAM [100% OFF]

Take advantage of a 100% OFF coupon code for the 'CloudNetX (V1) PRACTICE EXAM' course, created by Yassine Chffori, available on Udemy.

This course, updated on September 20, 2025 and it is expired on September 21, 2025.

This course provides of expert-led training in English , designed to boost your IT Certifications skills.

Highly rated at 0.0-star stars from 0 reviews, it has already helped 561 students.

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This intensive, hands-on course prepares senior network and cloud engineers to design, implement, secure, operate, and troubleshoot large-scale hybrid network environments. The curriculum is tightly mapped to the CloudNetX (V1) objectives and balances architecture theory, practical CLI/cloud lab work, automation/IaC exercises, observability, and scenario-driven troubleshooting. Learners complete realistic labs (multi-cloud on-prem emulations), assessed performance tasks, and a capstone network-design plus incident-response project that demonstrates mastery of architecture, zero-trust security, automation, monitoring, and remediation.

Who this course is for (target audience)

Senior network engineers, cloud-network architects, and site/network reliability engineers preparing for advanced hybrid network responsibilities or the CloudNetX (V1) exam. Recommended: multi-year enterprise networking experience and prior exposure to cloud networking and basic automation.

Prerequisite Titles (three)

  1. Professional Experience & Lab Readiness
    Senior network/cloud engineering experience, recommended prior certifications, and access to lab/cloud accounts and simulators.

  2. Core Networking & Security Fundamentals
    Solid TCP/IP & OSI knowledge; routing & switching (OSPF/BGP/VLANs); hybrid connectivity (VPN/SD-WAN/MPLS); network security and Zero-Trust basics; IAM concepts.

  3. Automation, Observability & Operations
    Basic scripting/automation (Bash/Python), Infrastructure as Code (Terraform/CloudFormation), monitoring/observability familiarity, network diagramming, and troubleshooting methodology.

Learning Objectives / Outcomes

After completing this course, learners will be able to:

  1. Design robust hybrid network architectures — produce diagrams and written justifications that satisfy availability, scalability, and security requirements for multi-cloud on-prem environments.

  2. Configure and validate core routing, switching, and hybrid interconnects — implement and verify OSPF/BGP peering, VLAN segmentation, NAT, VPN/SD-WAN, and cloud interconnect solutions and demonstrate reachability and convergence.

  3. Implement modern network security and Zero-Trust controls — deploy and validate firewalls, microsegmentation, ZTNA/SASE patterns, IAM controls (SSO/MFA/PKI), and wireless security measures.

  4. Automate provisioning and manage IaC safely — author and execute reproducible IaC templates and automation scripts, manage state and idempotency, and implement change/rollback procedures.

  5. Instrument and operate networks with observability — build telemetry pipelines, dashboards and alerts; interpret metrics/logs to identify bottlenecks and meet SLAs.

  6. Troubleshoot and remediate complex hybrid incidents — apply structured troubleshooting, use packet/flow analysis and cloud diagnostics, contain and remediate incidents, and produce an RCA with preventive recommendations.

Course Structure & Module Titles (with details)

  1. Module 1 — Foundations: TCP/IP, IP Addressing & Network Topologies
    IPv4/IPv6 addressing and subnetting, CIDR, OSI/TCP-IP model, topology patterns (spine-leaf, campus, core/aggregation), addressing strategies for multi-tenant cloud environments.

  2. Module 2 — Routing & Switching at Scale
    OSPF and BGP design and troubleshooting, route filtering and redistribution, route reflectors, VLANs and trunking, multicast basics, and convergence validation procedures.

  3. Module 3 — Hybrid Connectivity & Resiliency
    Site-to-site VPNs, SD-WAN architecture and policy design, MPLS fundamentals, direct cloud interconnects, load-balancing patterns, redundancy and autoscaling impacts on network design.

  4. Module 4 — Network Security & Zero-Trust Architecture
    Firewall/security group design patterns, microsegmentation strategies, ZTNA/SASE concepts, CASB overview, PKI and certificate lifecycle, IAM patterns and wireless security hardening.

  5. Module 5 — Automation & Infrastructure as Code
    IaC best practices for network resources (Terraform/CloudFormation), module design and state management, CI/CD for network changes, basic automation with Python/Ansible, testing and rollback strategies.

  6. Module 6 — Observability, Monitoring & Performance Engineering
    Telemetry collection (metrics, logs, traces), dashboard and alert design, QoS fundamentals, performance tuning (latency, jitter, packet loss), and SLO/SLA measurement.

  7. Module 7 — Troubleshooting & Incident Response
    Structured troubleshooting methodology, packet and flow analysis, DNS/VPN/cloud interconnect troubleshooting, security incident lifecycle (contain, eradicate, recover), post-incident reporting.

  8. Module 8 — Capstone: Design Incident Simulation
    End-to-end assignment: deliver a complete hybrid network design, implement core components in lab, and perform a timed incident simulation culminating in an RCA and remediation plan.