Cloud & DevOps Infrastructure
About Me
The Cloud & DevOps Infrastructure Track is strategically designed to equip learners with the expertise needed to build, manage, and secure scalable cloud environments. Inspired by the educational standards of Amazon Web Services (AWS), Google Cloud Platform (GCP), Microsoft Azure, Oracle, and Cisco, this track bridges theoretical foundations with practical, real-world applications.
Students will gain proficiency in cloud architecture, administration, operations automation, multi-cloud orchestration, and security governance. The program emphasizes hands-on implementation, industry-aligned tools, and certification readiness, preparing graduates for professional roles such as Cloud Architect, Cloud Administrator, DevOps Engineer, and Cloud Security Specialist.
Course 01.
Cloud Architecture Syllabus
The Cloud Architecture syllabus provides a comprehensive foundation in designing, planning, and deploying resilient, scalable, and cost-efficient infrastructures. Students will understand the principles behind modern cloud environments and apply best practices in architectural design to ensure high availability, performance, and compliance.
Detailed Modules & Topics
Module 1: Cloud Foundational Concepts & Design Principles
Explores cloud models, regions and availability zones, the Well-Architected Framework, and strategies for cost optimization and operational excellence across major providers. Objective: Apply architectural design principles that enhance scalability, security, and reliability.
Module 2: Compute, Storage, and Database Services
Covers serverless computing, microservices, containerization (Kubernetes), data lifecycle management, and selecting appropriate SQL/NoSQL databases for application workloads. Objective: Design optimized compute and data solutions aligned with organizational goals.
Module 3: Networking and Content Delivery
Introduces VPC design, subnetting, load balancing, traffic routing, and CDN integration for global performance. Objective: Configure and secure cloud network topologies for high-performance delivery.
Module 4: Security, Identity, and Compliance Design
Focuses on IAM policies, encryption strategies, governance models, and compliance frameworks such as GDPR and HIPAA. Objective: Integrate identity, compliance, and security controls within cloud architectures.
Module 5: Disaster Recovery and Advanced Architectures
Covers Disaster Recovery (DR) planning, high availability patterns, Infrastructure as Code (IaC) using Terraform or CloudFormation, and multi-region deployment. Objective: Implement fault-tolerant, self-healing architectures across cloud environments.
Capstone Project
Each student plans, builds, and deploys a production.
Course 02.
Cloud Administration Syllabus
The Cloud Administration syllabus focuses on the operational aspects of managing cloud platforms. Students gain hands-on experience in provisioning, monitoring, and maintaining infrastructure efficiently using both GUI and command-line tools. The course emphasizes automation, governance, and operational excellence.
Detailed Modules & Topics
Module 1: Resource Provisioning and Management
Learn to provision and manage resources via CLI and Management Consoles, implement resource tagging, and automate deployment workflows. Objective: Manage and scale cloud resources effectively with automation tools.
Module 2: Monitoring, Logging, and Alerting
Covers CloudWatch, Azure Monitor, and Stackdriver for performance visibility, logging, and incident alerting. Objective: Implement proactive monitoring and alerting to maintain optimal system health.
Module 3: Patching, Upgrades, and Maintenance
Explores OS patching, service upgrades, and automating maintenance windows through scripts. Objective: Maintain secure and updated systems through consistent maintenance routines.
Module 4: Identity and Access Management (IAM) for Admins
Focuses on user/group management, IAM policy creation, and multi-factor authentication (MFA) enforcement. Objective: Apply secure identity management practices for operational integrity.
Capstone Project
Each student plans, builds, and deploys a production.
Fees & Program Breakdown
Investing in your tech career is one of the smartest decisions you can make, your skills will open doors to global opportunities, high-income jobs, and long-term career growth. Our pricing is structured to remain affordable while still providing world-class training, mentorship, and internship placement.
Register In Your Preferred Currency
Registration Fee: $20
A mandatory one-time payment required before filling out the enrollment form.
Deposit
we require a deposit 50% of your entire tuition fee to secure your spot in the program. This deposit is part of your tuition not an extra fee and will be deducted from the total tuition balance.
Tuition Fee $400
Our tuition fees is $400. Students, you can choose to pay: Full payment upfront or Installment plan which spread your balance into monthly payments.
Program Details
This Program is span for an entire 3-months, it's including:
2 months Intensive Coursework
1 Month Final Project
Course 03.
Cloud Operations (CloudOps) Syllabus
This syllabus integrates DevOps and Site Reliability Engineering (SRE) principles into cloud operations. Students learn to automate deployment pipelines, manage infrastructure as code, and apply observability to ensure system reliability and scalability.
Detailed Modules & Topics
Module 1: CI/CD Pipeline Implementation
Covers Jenkins, GitLab, and Azure DevOps for continuous integration and delivery workflows. Objective: Implement automated pipelines to streamline deployment and testing.
Module 2: Infrastructure as Code (IaC) Deep Dive
Focuses on Terraform, Ansible, and modular infrastructure design for version-controlled automation. Objective: Automate infrastructure deployment using industry-grade IaC tools.
Module 3: Containerization and Orchestration
Explores Docker, Kubernetes, and Service Mesh for managing scalable containerized environments. Objective: Deploy and orchestrate containerized workloads with reliability.
Module 4: Observability and Incident Response
Covers SLOs, SLAs, distributed tracing, and post-incident reviews. Objective: Apply observability frameworks to manage and resolve incidents effectively.
Module 5: FinOps (Cloud Financial Operations)
Introduces cloud cost governance, including budget alerts, resource tagging, and usage optimization. Objective: Implement cost-aware management and financial accountability in cloud environments.
Capstone Project
Each student plans, builds, and deploys a production.
Course 04.
Multi-Cloud Strategies Syllabus
This syllabus examines how organizations can leverage multiple cloud providers to enhance flexibility, reduce risk, and avoid vendor lock-in. Students will design interoperable, hybrid, and portable cloud architectures that balance cost, performance, and security.
Detailed Modules & Topics
Module 1: Multi-Cloud Business Case & Strategy
Analyzes economic and strategic factors driving multi-cloud adoption. Objective: Formulate sustainable, cost-effective multi-cloud strategies.
Module 2: Interoperability and Hybrid Cloud
Explores hybrid architectures, on-premise integration, and unified management tools. Objective: Design interoperable systems bridging multiple environments.
Module 3: Data Mobility and Networking Across Clouds
Covers cloud-to-cloud VPNs, Direct Connect, and data replication across providers. Objective: Establish secure, high-performance multi-cloud connectivity.
Module 4: Unified Identity and Security Management
Focuses on SAML, OAuth, and cloud-agnostic security solutions. Objective: Implement federated identity and cross-platform security controls.
Module 5: Multi-Cloud Automation and Abstraction Tools
Introduces Terraform, Anthos, and OpenShift for managing distributed infrastructures. Objective: Apply automation and abstraction tools to simplify multi-cloud management.
Capstone Project
Each student plans, builds, and deploys a production.
Course 05.
Cloud Security Syllabus
The Cloud Security syllabus focuses on the principles and practices of securing cloud-based infrastructures. Students learn to identify vulnerabilities, implement encryption, enforce access control, and respond to incidents effectively within the Shared Responsibility Model.
Detailed Modules & Topics
Module 1: Cloud Security Fundamentals & Shared Responsibility
Explains the shared responsibility model and introduces DevSecOps, CSPM, and compliance frameworks. Objective: Understand cloud security foundations and shared accountability.
Module 2: Network Security in the Cloud
Covers Zero Trust models, firewalls, WAF, and DDoS protection mechanisms. Objective: Implement network-level protections and access policies.
Module 3: Identity, Governance, and Administration (IGA)
Focuses on IAM audits, role enforcement, and least privilege principles. Objective: Establish secure governance structures for cloud access.
Module 4: Data Protection, Encryption, and Compliance
Teaches encryption key management, data masking, and automated compliance checks. Objective: Safeguard sensitive data and maintain regulatory compliance.
Module 5: Security Operations (SecOps) and Threat Detection
Explores vulnerability scanning, threat intelligence, and incident response playbooks. Objective: Develop proactive monitoring and response capabilities.
Capstone Project
Each student plans, builds, and deploys a production.
