Video training course for the newly updated Cisco 200-310 DESGN / CCDA v3.0 Designing for Cisco Internetwork Solutions exam. A Cisco Certified Design Associate (CCDA) certified network engineer demonstrates the skills required to design basic campus, data center, security, voice, and wireless networks.
This is a theory only course so you do not require access to any equipment. We do demonstrate some commands on live equipment in some of the lectures but this is for demonstration purposes only.
Network design is one of the most rewarding and exciting careers you can choose. You work with the customer on their requirements and then create a network design for handover to the installation team. You will often be working with project managers, network security teams and senior managers in order to complete the design.
Your Instructor
David Voss
CCIE 11372, has been involved with networking since 1996. He has achieved CCNA, CCDA, CCNP, and CCDP certifications and in 2013 he celebrated his 10th anniversary as a CCIE.
He currently works in network design, but has also worked in consulting, pre-sales, and engineering for large corporations and Cisco partners.He currently lives in Virginia (USA) with his wife and three kids. David completed a Master of Science in IT Executive Management from Virginia Commonwealth University in 2014.
- Over 15 hours of video training
- Instructor guided labs
- End-of-module exams
- End-of-course certificate
- Access to members only forum
- Exam vendor – Pearson Vue
- Prerequesites – ICND1
- Recommended – Network+
Module 1 | Network Fundamentals |
---|---|
Unit 1 | The OSI Model |
Unit 2 | Networking Devices |
Unit 3 | Network Types |
Unit 4 | TCP/IP |
Unit 5 | Layer 2 Technologies - STP |
Unit 6 | Layer 2 Technologies - VLANs |
Unit 7 | Layer 3 Technologies |
Module 2 | Network Design Methodology |
Unit 1 | Network Design Principles |
Unit 2 | Cisco IIN and SONA |
Unit 3 | PPDIOO Lifecycle Model |
Unit 4 | SLA Resources |
Module 3 | Modular Network Solutions |
Unit 1 | Cisco Hierarchical Network Model |
Unit 2 | Intelligent Network Services |
Module 4 | Enterprise LAN and Data Center Design |
Unit 1 | Design Considerations: Geography and Apps |
Unit 2 | Layer 2/3 Switching |
Unit 3 | Physical Cabling |
Unit 4 | Analyzing Traffic |
Unit 5 | Enterprise Campus Design |
Unit 6 | Data Center Considerations |
Unit 7 | Data Center Components |
Unit 8 | Virtualization Considerations |
Unit 9 | Network Programmability |
Unit 10 | Network Scalability, Resiliency, and Fault Domains |
Module 5 | Enterprise WAN Design |
Unit 1 | WAN Design Overview |
Unit 2 | Dial-up Technology |
Unit 3 | Frame Relay |
Unit 4 | MPLS |
Unit 5 | WAN Design Methodologies |
Unit 6 | WAN QoS Considerations |
Unit 7 | Other WAN Technologies |
Unit 8 | Design a Basic Branch Office |
Module 6 | IP Addressing |
Unit 1 | IPv4 Addressing |
Unit 2 | IPv6 Addressing |
Module 7 | Routing Protocol Design |
Unit 1 | Routing Protocol Concepts |
Unit 2 | RIP Design |
Unit 3 | EIGRP Design |
Unit 4 | OSPF Design |
Unit 5 | ISIS Design |
Unit 6 | BGP Design |
Unit 7 | IPv6 Routing Protocols |
Module 8 | Network Security Design |
Unit 1 | Network Attacks and Countermeasures |
Unit 2 | Security Policy Mechanisms |
Unit 3 | Cisco SAFE Blueprint |
Unit 4 | Security Management |
Module 9 | Voice and Video Infrastructure |
Unit 1 | Traditional Voice Systems |
Unit 2 | Integrated Voice and IP Telephony Systems |
Unit 3 | Integrated Video Systems |
Module 10 | Wireless Network Design |
Unit 1 | Introduction to Wireless LANs |
Unit 2 | Cisco Unified Wireless Solutions |
Unit 3 | Wireless LAN Design |