Certified Ekasi Cybersecurity Engineer

Certified Ekasi Cybersecurity Engineer
Cybersecurity Advanced

Certified Ekasi Cybersecurity Engineer

Learn to design and build secure systems. Covers secure architecture, DevSecOps, automation, and security tooling.

Course Description

Learn to design and build secure systems. Covers secure architecture, DevSecOps, automation, and security tooling.

Learning Outcomes

Build secure CI/CD pipelines, deploy security tools, automate compliance checks, design zero-trust architectures.

Target Audience

Security engineers, DevSecOps engineers, security architects, system designers.

9 Modules
63 Lessons
25h 0m

Learn security architecture frameworks, threat modeling, and designing resilient security systems.
  • 1.1: Introduction to Security Architecture (50 min)
  • 1.2: Threat Modeling Methodologies (55 min)
  • 1.3: Security Architecture Patterns (50 min)
  • 1.4: Risk Assessment for Security Architects (50 min)
  • 1.5: Security Requirements Engineering (50 min)
  • 1.6: Security Reference Architectures (50 min)
  • 1.7: Security Architecture Review & Continuous Improvement (45 min)

Learn to integrate security into CI/CD pipelines, automate security tests, and shift-left security.
  • 2.1: Introduction to DevSecOps (45 min)
  • 2.2: CI/CD Pipeline Security (50 min)
  • 2.3: SAST - Static Application Security Testing (50 min)
  • 2.4: SCA - Software Composition Analysis (45 min)
  • 2.5: DAST - Dynamic Application Security Testing (45 min)
  • 2.6: Container Security in DevSecOps (50 min)
  • 2.7: DevSecOps Metrics and Continuous Improvement (45 min)

Learn Python and Bash for security automation, API integration, and custom security tools.
  • 3.1: Introduction to Security Automation (45 min)
  • 3.2: Python for Security Automation - Part 1 (50 min)
  • 3.3: Bash Scripting for Security (45 min)
  • 3.4: API Integration for Security (45 min)
  • 3.5: SOAR - Security Orchestration Automation Response (50 min)
  • 3.6: Security Automation Workshop (60 min)
  • 3.7: Security Automation Case Studies (45 min)

Learn to design IAM systems, SSO, identity federation, privileged access management, and identity governance.
  • 4.1: Introduction to IAM Engineering (45 min)
  • 4.2: Authentication Methods and MFA (50 min)
  • 4.3: SSO and Identity Federation (50 min)
  • 4.4: RBAC, ABAC, and Access Control Models (50 min)
  • 4.5: Privileged Access Management (PAM) (55 min)
  • 4.6: Identity Governance and Administration (IGA) (50 min)
  • 4.7: IAM Security Architecture Workshop (60 min)

Learn to build SIEM, SOAR, and logging pipelines for security monitoring and alerting.
  • 5.1: Introduction to Security Monitoring (45 min)
  • 5.2: SIEM Architecture and Deployment (55 min)
  • 5.3: Log Management and Retention (50 min)
  • 5.4: Detection Engineering and Rule Writing (55 min)
  • 5.5: UEBA and Anomaly Detection (50 min)
  • 5.6: Threat Intelligence Integration (50 min)
  • 5.7: Security Monitoring Workshop (60 min)

Learn to implement zero trust networks, micro-segmentation, continuous verification, and least privilege.
  • 6.1: Introduction to Zero Trust Architecture (50 min)
  • 6.2: Zero Trust Network Access (ZTNA) (55 min)
  • 6.3: Micro-segmentation (55 min)
  • 6.4: Continuous Verification and Trust Scoring (50 min)
  • 6.5: Zero Trust for Cloud and Hybrid Environments (55 min)
  • 6.6: Zero Trust Implementation Roadmap (60 min)
  • 6.7: Zero Trust Workshop (60 min)

Learn to integrate security tools (SAST, DAST, IAST, SCA) into development workflows.
  • 7.1: Introduction to Security Tooling Integration (50 min)
  • 7.2: DevOps Security Toolchain Integration (55 min)
  • 7.3: SIEM to SOAR Integration (55 min)
  • 7.4: Threat Intelligence Platform (MISP) Integration (50 min)
  • 7.5: Cloud Security Integration (55 min)
  • 7.6: Endpoint Detection and Response (EDR) Integration (50 min)
  • 7.7: Security Tooling Integration Workshop (60 min)

Learn research techniques for security engineering: evaluating security tools, researching CVEs, testing security controls, and analyzing engineering best practices.
  • 8.1: Introduction to Cybersecurity Research Methods (50 min)
  • 8.2: Threat Intelligence Research (55 min)
  • 8.3: Vulnerability Research and CVE Analysis (50 min)
  • 8.4: Malware Analysis Research Methods (55 min)
  • 8.5: Incident Investigation Research Methods (55 min)
  • 8.6: Security Research Tools and Automation (50 min)
  • 8.7: Cybersecurity Research Workshop (60 min)

Develop critical thinking, reasoning, communication, and workplace conflict resolution skills for engineering roles.
  • 9.1: What is Integrated Thinking in Cybersecurity? (45 min)
  • 9.2: Connecting Security with Business Strategy (45 min)
  • 9.3: Cross-Functional Collaboration for Security (45 min)
  • 9.4: Security Risk Management and Prioritization (50 min)
  • 9.5: Ethical Decision-Making in Security (45 min)
  • 9.6: Communicating Security to Non-Experts (45 min)
  • 9.7: Integrated Thinking Workshop (60 min)

Certification Exam

Final certification exam for Cybersecurity Engineer. Tests knowledge of secure architecture, DevSecOps, security automation, IAM engineering, monitoring engineering, and zero trust implementation.

Passing Score: 70%
Time Limit: 120 minutes
Attempts Allowed: 3
Camera Required: No

To earn your certificate, you must complete all course materials and pass the final exam with a score of 70% or higher.

Enroll in this Course
Certificate included
27 hours content
Downloadable resources
Mobile access
Duration 27 hours
Skill Level Advanced
Learning Method Self Study
Category Cybersecurity
Modules 9
Total Lessons 63
Last Updated May 2026
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