Cisco Network Engineer Training Series

Targeting Cisco specific Networks, this Cisco Network Engineer Training series provides in-depth curriculum for those wanting to learn networking basics and advance his/her career opportunities as a Cisco Network Engineer.


This Cisco Network Engineer Career Path

126 Training Hours

459 On-demand Videos

Closed Captions

77 Topics

850 Prep Questions

Certificate of Completion



Network Design and Implementation


Configuration and Installation


Network Maintenance and Upgrades


Troubleshooting and Support


Security Management


Performance Monitoring and Optimization


Documentation and Reporting


Collaboration and Communication


Compliance and Standards Adherence


Disaster Recovery and Backup


Capacity Planning


User Training and Support

The Role of A Cisco Network Engineer

A Cisco Network Engineer plays a crucial role in designing, implementing, managing, and troubleshooting network infrastructure, primarily focused on Cisco products and solutions. Their duties are diverse and can vary depending on the specific needs of the organization


CompTIA Network+ N10-008 Course Content

Module 0 - Course introduction

Module 1 - Networking Fundamentals

Module 2 - Cables and Connectors

Module 3 - Internet Protocol (IP)

Module 4 - Layer 7 Protocols

Module 5 - Network Services

Module 6 - Networking Devices

Module 7 - Networked Devices

Module 8 - Routing and Bandwidth Management

Module 9 - Ethernet Switching

Module 10 - Wireless Technologies

Module 11 Network Performance

Module 12 High Availability and Disaster Recovery

Module 13 Organizational Documents

Module 14 Network Security

Module 15 Network Troubleshooting


Cisco 200-301: Cisco Certified Network Associate (CCNA) Course Content

Module 1: Exploring the Functions of Networking

Module 2: Introducing the Host-To-Host Communications Model

Module 3: Introducing LANs

Module 4: Exploring the TCP/IP Link Layer

Module 5: Subnetting

Module 6: Explaining the TCP/IP Transport Layer and Application Layer

Module 7: Exploring the Functions of Routing

Module 8: Exploring the Packet Delivery Process

Module 9: Troubleshooting a Simple Network

Module 10: Introducing Basic IPv6

Module 11: Configuring Static Routing

Module 12: Implementing VLANs and Trunks

Module 13: Routing Between VLANs

Module 14: Introducing OSPF

Module 15: Building Redundant Switched Topologies

Module 16: Improving Redundant Switched Topologies with EtherChannel

Module 17: Exploring Layer 3 Redundancy

Module 18: Introducing WAN Technologies

Module 19: Explaining Basics of ACL

Module 20: Enabling Internet Connectivity

Module 21: Introducing QoS

Module 22: Introducing Architectures and Virtualization

Module 23: Introducing System Monitoring

Module 24: Managing Cisco Devices

Module 25: Examining the Security Threat Landscape

Module 26: Implementing Threat Defense Technologies

Module 27: Exam Preparation

Module 28: Practice Demos


CompTIA Security+ SY0-601 Course Content

Module 1 - Introduction to Security

Module 2 - Malware and Social Engineering Attacks

Module 3 - Basic Cryptography

Module 4 - Advanced Cryptography and PKI

Module 5 - Networking and Server Attacks

Module 6 - Network Security Devices, Designs and Technology

Module 7 - Administering a Secure Network

Module 8 - Wireless Network Security

Module 9 - Client and Application Security

Module 10 - Mobile and Embedded Device Security

Module 11 - Authentication and Account Management

Module 12 - Access Management

Module 13 - Vulnerability Assessment and Data Security

Module 14 - Business Continuity

Module 15 - Risk Mitigation

Module 16 - Security Plus Summary and Review

Module 17 - Hands-On Training

Cisco 350-401: Implementing Cisco Enterprise Network Core Technologies (ENCOR) (CCNP) Course Content

Module 1: Architecture

Module 2: Virtualization

Module 3: Infrastructure

Module 4: Network Assurance

Module 5: Security

Module 6: Automation

Cisco 300-410 ENARSI - Implementing Cisco Enterprise Advanced Routing and Services Course Content

Module 1 - Welcome to ENARSI

Module 2 - EIGRP (Enhanced Interior Gateway Protocol)

Module 3 - OSPF (Open Shortest Path First)

Module 4 - Route Redistribution

Module 5 - Implementing Path Control

Module 6 - BGP (Border Gateway Protocol)

Module 7 - Implementing VRF (Virtual Routing and Forwarding)

Module 8 - Implementing DHCP

Module 9 - Securing Cisco Routers (Control Plane)

Module 10 - Infrastructure Services

Why become a Cybersecurity Engineer?

Growing Demand for Cybersecurity Professionals

The field of cybersecurity is experiencing rapid growth, driven by the escalating number and complexity of cyber threats. Both public and private sectors are investing heavily in cybersecurity measures to protect sensitive information and secure critical infrastructure. This increased investment has created a substantial demand for cybersecurity professionals, and the job market is teeming with opportunities. By becoming a cybersecurity engineer, you position yourself at the forefront of a booming industry with a multitude of career prospects.

Lucrative Salaries and Career Advancement

Cybersecurity professionals are highly sought after, and as a result, they enjoy attractive salaries and excellent benefits. The specialized skills and expertise required in this field command a premium in the job market. Furthermore, as you gain experience and demonstrate your capabilities, the potential for career advancement becomes significant. Cybersecurity engineers can progress to leadership positions, such as Chief Information Security Officer (CISO), and take on strategic roles in shaping an organization's security posture.

Global Relevance and Job Security

Cybersecurity is a global concern affecting organizations of all sizes and industries worldwide. The need for cybersecurity professionals extends beyond borders, making it a globally relevant field. By becoming a cybersecurity engineer, you equip yourself with skills that are in demand not only locally but also internationally. Job security in the field of cybersecurity is robust, as the increasing threat landscape ensures a constant need for skilled professionals to protect against attacks and mitigate risks.

Continuous Learning and Growth

The field of UX/UI design is dynamic and ever-evolving. To stay competitive, designers need to keep learning and adapting to new technologies and design trends. This continuous learning keeps the work interesting and provides opportunities for personal and professional growth.

Opportunities for growth

As software testers gain experience and develop their skills, they can take on more challenging roles and responsibilities. This can lead to promotions and career advancement opportunities. Most Manual testers progress to QA automation, Software development, DevOps, or Cloud Engineering.

Our Talents Work Here

Our talentstories

We connect learners with peers and experts from around the world, facilitating networking and collaboration opportunities.

IBT Training's DevOps course provided a comprehensive and insightful learning experience with valuable hands-on exercises. While the internship placement was beneficial, additional guidance could enhance the overall transition. Overall, IBT Training lays a solid foundation for entering the DevOps field.

Olaniyan Olatunde Kubernetes Admin, Microsoft

Enrolling in this course proved career-defining, offering invaluable knowledge and a guaranteed internship. It set me on a path to success, delivering everything promised—free certification, ongoing learning, and the ability to pass my sec+ on the first try.

Solomon Awuku Cybersecurity Analyst, Tek Computers

Upon completing the class, I felt confident and prepared to embark on a career in cybersecurity. The skills and knowledge I acquired have already proven invaluable, as I find myself better equipped to tackle real-world challenges and contribute to the protection of digital assets.


"IBT Learning is an outstanding tech school, with experienced teachers. Graduates gain hands-on experience with management tools such as Git, Maven, Nexus, SonarQube, Ansible, Docker for microservices, Kubernetes for container orchestration, and Terraform for Infras as Code"

Landric N DevOps Engineer, Transportation Insight

Your Questions, Answered

What Does a Cisco Network Engineer Do?

A Cisco Network Engineer is responsible for designing, implementing, managing, and troubleshooting network infrastructure, primarily focusing on Cisco products and solutions. Their duties include configuring Cisco routers and switches, ensuring network security, optimizing network performance, and providing technical support for network-related issues.

What Certifications are Essential for a Cisco Network Engineer?

Essential certifications for a Cisco Network Engineer typically include the Cisco Certified Network Associate (CCNA) for foundational knowledge, and the Cisco Certified Network Professional (CCNP) for advanced skills. Depending on their specialization, they might also pursue certifications like Cisco Certified Internetwork Expert (CCIE) or specific security certifications like CompTIA Security+

What Skills are Required to Be Successful as a Cisco Network Engineer?

Key skills include in-depth knowledge of Cisco hardware and software, proficiency in network design and implementation, strong problem-solving abilities, and expertise in network security. Additionally, good communication skills and the ability to work collaboratively are important.


What Kind of Industries Employ Cisco Network Engineers?

Cisco Network Engineers are employed across various industries including IT and telecommunications, finance, government, healthcare, educational institutions, and any organization that relies on robust network infrastructure

What is the Career Path for a Cisco Network Engineer?

The career path can start with entry-level positions like Network Technician or Network Administrator, progressing to a Cisco Network Engineer role. With experience and additional certifications, one can move into senior positions like Network Manager, IT Director, or specialize in areas like network security or cloud networking