Faculty of Information Technology, BUT

Course details

Design and Security of Enterprise Networks

CCS Acad. year 2019/2020 Winter semester 5 credits

Designing network topology with security. BPG, MPLS, MPLS VPN and VxVLAN technologies. Multihoming, mobility, renumbering. IPv6 native implementation and transition techniques. Optical networks. Automated network configuration using IPAM, DevOps and NetOps.

Guarantor

Deputy Guarantor

Language of instruction

Czech

Completion

Classified Credit

Time span

52 hrs laboratories

Assessment points

20 half-term test, 54 exercises, 26 labs

Department

Instructor

Subject specific learning outcomes and competences

Students learn concepts of network design, security and management of enterprise networks. They will understand network technologies like BPG, MPLS, VxVLAN, VPN tunneling, QoS and others.

Learning objectives

The course is focused on advanced networking technologies employed in ISP and telcom networks. It includes interdomain routing, IPv6 transitions technologies, L2 virtual technologies and quality of services. Hands-on lab training will be provided on active network devices and Linux stations.

Why is the course taught

This course prepares students for a role of network administrators in ISP networks.

Prerequisite kwnowledge and skills

Student are expected to be familiar with configuration of active network devices and advanced configuration of Linux systems. Cisco courses CCNA Routing and Switching or CCNP Route are recommended as prerequisities.

Study literature

  • Lecture notes in English.

Fundamental literature

  • Omar Santos, John Stuppi. CCNA Security 210-260 Official Cert Guide. Cisco Press, 2015.
  • Anthony Bruno, Steve Jordan. CCDA 200-310 Official Cert Guide, 5th Edition. Cisco Press, 2016.
  • Ina Minei, Julian LucekMPLS-Enabled Applications: Emerging Developments and New Technologies. Wiley; 3 edition (Jan. 18 2011)
  • Ivan Pepelnjak, Jim Guichard, MPLS and VPN Architectures, 2000 by Cisco Press.

Progress assessment

  • Home preparation and hands-on labs (max 26 points).
  • Skills exam (max 20 points).
  • Final configuration and theoretical test (max 54 points)

Controlled instruction

  • Home preparation and active participation in hands-on labs.
  • Missed classes will not be replaced.

Exam prerequisites

  • Participation in all hands-on labs.
  • Half of points in each activity required for credits.

Course inclusion in study plans

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