; TEL - (USA): +1.214.438.9105

DevOps/CICD Training

3-month DevOps/CICD Engineer Course

Infrastructure As Code with Terraform & Python

Learn to automate infrastructure deployment and management with Terraform. Create, modify, and version infrastructure as code to streamline workflows and ensure consistency across cloud environments.

DevOps & CICD Engineering

Master version control, continuous integration, deployment automation, and monitoring to optimize software delivery pipelines, ensuring efficiency, reliability, and seamless collaboration in DevOps with GitHub, Jenkins, Docker, Ansible, etc

Production Deployment with Kubernetes

Learn Azure DevOps and AWS native DevOps tools and processes covering version control, CI/CD pipelines, agile planning, artifact management, testing, monitoring, to empower efficient DevOps practices within the Azure and AWS environments.

3-month DevOps Engineering Course

As a DevOps Engineer, your role encompasses bridging the gap between software development and IT operations, utilizing a suite of traditional DevOps tools to streamline the software development lifecycle. This involves automating processes for continuous integration and deployment (CI/CD) using tools such as Jenkins, GitLab CI, or CircleCI; managing infrastructure as code with tools like Ansible, Puppet, or Chef; implementing containerization and orchestration through Docker and Kubernetes; monitoring system performance and logging using tools like Nagios, Prometheus, or ELK stack; and ensuring security and compliance with tools like SonarQube and OWASP ZAP. By effectively leveraging these tools, DevOps Engineers facilitate collaboration between development and operations teams, accelerate software delivery, and enhance the reliability and scalability of software systems.

Infrastructure as Code with Terraform: month-1

– Harness the power of Terraform in an Infrastructure as Code (IaC) course
– Revolutionize application deployment processes within AWS
– Develop essential application features alongside Terraform implementation
– Set up development environment using VSCode IDE and install Terraform
– Create Terraform scripts, understand Terraform files, workflows, and tfstate management
– Gain proficiency in HashiCorp Cloud & Scripting
– Master techniques for backing up to the cloud to fortify infrastructure
– Deploy cloud resources using Terraform scripts through hands-on exercises
– Provide intermediate-level design and engineering support for successful IT cloud project delivery
– Delve into Python coding to automate infrastructure provisioning
– Learn fundamental coding concepts and leverage tools like GitHub Copilot for efficient code generation
– Master skills to streamline operations, enhance scalability, and optimize cloud infrastructure management

DevOps & CD/CD Engineering: month-2

Foundation of DevOps:

– Introduction to DevOps principles and practices.

– Collaboration and communication between development and operations teams.

– Basics of Continuous Integration (CI) and Continuous Deployment (CD) concepts.

– In-depth understanding of DevOps culture, emphasizing collaboration and shared responsibility.

– Implementing CI/CD pipelines and understanding their importance in the software delivery lifecycle.

– Knowledge of version control systems (e.g., Git) and their role in DevOps workflows.

Automation and Configuration Management:

– Introduction to automation tools like Jenkins, Travis CI, or GitLab CI.

– Basics of scripting languages (e.g., Bash, Python) for automation.

– Basic configuration management concepts.

– Configuring and managing automation pipelines for building, testing, and deploying applications.

– Advanced scripting for task automation and integration within the CI/CD process.

– Configuration management tools (e.g., Ansible) for consistent infrastructure configurations.

Introduction to CI/CD:

– Understanding the core concepts of Continuous Integration (CI) and Continuous Deployment (CD).

– Familiarity with the benefits of CI/CD in software development.

– Basic knowledge of version control systems (e.g., Git).

– Proficient use of CI tools (e.g., Jenkins, GitLab CI, Travis CI).

– Configuration of basic CI pipelines for automating code builds and unit tests.

– Integration of CI tools with version control systems.

Deployment Automation:

– Basics of deployment automation and orchestration.

– Introduction to containerization using Docker

– Basic knowledge of deployment strategies (e.g., blue-green deployments).

– Implementation of deployment automation using Ansible.

– Configuring pipelines for multiple environments (development, staging, production).

– Integration of containerization in the CI/CD workflow.


Production-grade Deployment with Kubernetes: month-3


Introduction to Kubernetes:

– Understanding the fundamentals of containerization and its benefits.

– Basics of Kubernetes architecture and components.

– Familiarity with Kubernetes resources (Pods, Deployments, Services).

– Proficient use of `kubectl` for interacting with Kubernetes clusters.

– Creation and management of simple Kubernetes deployments.

– Understanding and implementing basic networking concepts in Kubernetes.

Pods, Deployments, Service, etc:

– Creating and managing individual Pods in Kubernetes.

– Basics of Pod networking and communication.

– Introduction to Deployments and their role in managing application instances.

– Configuring and managing multi-container Pods.

– Implementing rolling updates and rollbacks with Deployments.

– Utilizing Helm for package management and simplifying Kubernetes resource definitions.

Scaling and Resource Management:

– Basics of scaling applications in Kubernetes (horizontal and vertical scaling).

– Introduction to resource requests and limits.

– Understanding the concept of Kubernetes namespaces.

– Implementing autoscaling based on metrics.

– Fine-tuning resource allocation for optimal performance.

– Managing resource quotas and limits within namespaces.

Advanced Kubernetes

– Services, Ingress, and networking in Kubernetes.

– Helm for packaging and deploying Kubernetes applications.

– StatefulSets and persistent storage.

– Advanced networking concepts (Network Policies).

– Custom Resource Definitions (CRDs) and Operators.

Cluster Administration:

– Cluster installation and setup (Minikube, single-node).

– Basic cluster configuration and management.

– Basic troubleshooting techniques.

– Multi-node cluster installation and high availability.

– Security measures (RBAC, network policies).

– Monitoring and logging configurations.

– Advanced security practices (Pod Security Policies, identity integration).

– Disaster recovery planning and execution.

– Cluster upgrades and maintenance.

– Integration with CI/CD pipelines.

– Managing and scaling applications in production.

– Advanced Helm usage and chart development.

– Application lifecycle management.




The Build and Optimization of CI/CD Pipeline for Continuous Application Release from Development to Operations

Aviation Industry

  • Orchestrated the setup and ongoing management of a robust CI/CD pipeline, resulting in a remarkable 40% improvement in team efficiency.
  • Implemented end-to-end automation of code deployment processes, leading to a significant reduction in time to market, slashing deployment duration from 8 hours to an agile 2 hours.
  • Deployed and configured open-source monitoring tools to actively observe and evaluate the health and performance of cloud-based resources, fostering proactive issue resolution.
  • Engineered comprehensive deployment scripts, effectively eliminating downtime for applications, and establishing a resilient infrastructure foundation.


Infrastructure Provisioning Automation for Testing and Development Environments, using Terraform

AWS & Azure

  • Increased the number of applications and S3 buckets created from 4 to 16 by creating a new terraform manifest that automated the infrastructure provisioning.
  • Implemented Terraform modules to streamline the provisioning process, ensuring consistency and scalability across different projects and environments.
  • Enhanced security measures by incorporating AWS Identity and Access Management (IAM) roles and policies into the Terraform scripts, aligning with best practices.
  • Established a version control system for Terraform manifests, leveraging Git, to track changes, collaborate efficiently, and maintain a history of infrastructure modifications.


Kubernetes Cluster Deployment and Configuration for Production Environment

Healthcare Industry

  • Configured and managed Kubernetes clusters for production as well as non-production environments, using Terraform and AWS-EKS, ensuring high availability with 99.9% SLA for applications, and increased speed of deployments by 50%.
  •  Automated overall Kubernetes cluster deployment and management, providing robust performance optimization, health monitoring, and application deployment control.
  • Developed Helm charts for deploying, managing, and rolling new releases of applications.
  • Implemented security policies to ensure best security practices for applications.

Register for DevOps/CICD Training 

IaC with Terraform

1 month training 


To take this course, first complete Cloud Operations.


DevOps & CI/CD

1 month training


To take this course, first complete Cloud Operations.


Deploy to Kubernetes 

1 month training 


To take this course, first complete Cloud Operations.



(USA): +1.214.438.9105

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