NETWORK DESIGN TRAINING COURSE DESCRIPTION
This course provides you with the knowledge needed to perform the design of a
network infrastructure that supports desired network solutions to achieve
effective performance, scalability, and availability. We recognise that the role
of design does not normally require hands on skills but hands on sessions are
used to reinforce the theory not to teach configuration or troubleshooting.
WHAT WILL YOU LEARN
* Create HA enterprise network designs.
* Develop optimum Layer 3 designs.
* Design effective modern WAN and data center networks.
* Develop effective migration approaches to IPv6.
* Create effective network security designs.
NETWORK DESIGN TRAINING COURSE DETAILS
* Who will benefit:
Anyone involved with network design.
* Prerequisites:
TCP/IP Foundation for engineers
* Duration
5 days
NETWORK DESIGN TRAINING COURSE CONTENTS
PART I RELIABLE, RESILIENT ENTERPRISE L2/3 NETWORK DESIGN
Optimal Enterprise Campus Design:
Enterprise campus design principles, hierarchy, modularity, flexibility,
resiliency.
EIGRP design:
EIGRP Design, Should you use EIGRP?
OSPF design:
OSPF scalability designs, OSPF area design, OSPF Full-Mesh Design, OSPF
Hub-and-Spoke Design, OSPF convergence design and optimization techniques.
IS-IS Design:
The protocol, IS-IS hierarchical architecture, IS-IS vs OSPF, IS-IS Deep Dive,
IS-IS Design Considerations.
BGP design:
BGP overview, Designing Scalable iBGP Networks, BGP Route Reflector Design,
Enhancing the Design of BGP Policies with BGP Communities, Case Study: Designing
Enterprise wide BGP Policies Using BGP Communities, BGP Load-Sharing Design.
PART II ENTERPRISE IPV6 DESIGN CONSIDERATIONS
IPv6 Design Considerations in the Enterprise:
IPv6 Deployment and Design Considerations, Considerations for Migration to IPv6
Design, IPv6 Transition Mechanisms, Final Thoughts on IPv6 Transition
Mechanisms.
Challenges of the Transition to IPv6:
IPv6 Services, Link Layer Security Considerations.
PART III MODERN ENTERPRISE WIDE-AREA NETWORKS DESIGN
Service Provider-Managed VPNs:
Choosing Your WAN Connection, Layer 3 MPLS VPNs, Case Study: MPLS VPN Routing
Propagation, Layer 2 MPLS VPN Services.
Enterprise-Managed WANs:
Enterprise-Managed VPNs, GRE, Multipoint GRE, Point-to-Point and Multipoint GRE,
IPsec, IPsec and dynamic VTI, DMVPN, Case Study: EIGRP DMVPN, DMVPN and
Redundancy, Case Study: MPLS/VPN over GRE/DMVPN, SSL VPN.
Enterprise WAN Resiliency Design:
WAN Remote-Site Overview, MPLS L3 WAN Design Models, Common L2 WAN Design
Models, Common VPN WAN Design Models, 3G/4G VPN Design Models, Remote Site Using
Local Internet, Remote-Site LAN, Case Study: Redundancy and Connectivity, NGWAN,
SDWAN, and IWAN Solution Overview, IWAN Design Overview, Enterprise WAN and
Access Management.
PART IV ENTERPRISE DATA CENTER DESIGNS
Multitier Data Center Designs:
Case Study: Small Data Centers (Connecting Servers to an Enterprise LAN), Case
Study: Two-Tier Data Center Network Architecture, Case Study: Three-Tier Data
Center Network Architecture.
Trends and Techniques to Design Modern Data Centers:
The Need for a New Network Architecture, Limitations of Current Networking
Technology, Modern Data Center Design Techniques and Architectures, Multitenant
Data Center.
SDN:
SDN characteristics, How SDN addresses current Networking Limitations, SDN
Architecture Components, SDN Network Virtualization overlays.
Data Center Connections:
Data Center Traffic Flows, The Need for DCI, IP Address Mobility, Case Study:
Dark Fiber DCI, Pseudowire DCI.
PART V DESIGN QOS FOR OPTIMIZED USER EXPERIENCE
QoS Overview:
QoS Overview, IntServ versus DiffServ, Classification and Marking, Policers and
Shapers, Policing Tools: Single-Rate Three-Color Marker, Policing Tools: TwoRate
Three-Color Marker, Queuing Tools, Dropping Tools. QoS design principles and
best practices:
QoS overview, classification and marking design principles, policing and
remarking design principles, queuing design principles, dropping design
principles, Per-Hop behavior queue design principles, RFC 4594 QoS
Recommendation, QoS Strategy Models. Campus QoS, WAN QoS, Data Center QoS.
MPLS VPN QoS Design:
The Need for QoS in MPLS VPN, Layer 2 Private WAN QoS Administration, Fully
Meshed MPLS VPN QoS Administration, MPLS DiffServ Tunneling Modes, Sample MPLS
VPN QoS Roles.
IPsec VPN QoS Design:
The Need for QoS in IPsec VPN, VPN Use Cases and Their QoS Models, IPsec
Refresher, Encryption and Classification: Order of Operations, MTU
Considerations, DMVPN QoS Considerations.
PART VI IP MULTICAST DESIGN
Enterprise IP Multicast Design:
How Does IP Multicast Work? Multicast Protocols, Multicast Forwarding and RPF
Check, Multicast Protocol Basics, PIM-SM Overview, Multicast Routing Table,
Basic SSM Concepts, Bidirectional PIM. RP discovery, Anycast RP Features, MSDP.
PART VII DESIGNING OPTIMUM ENTERPRISE NETWORK SECURITY
Designing Security Services and Infrastructure Protection
Network Security Zoning, Designing Infrastructure Protection.
Designing firewall & IPS solutions:
Firewall architectures, virtualized firewalls. Case Study: Application Tier
separation, Case Study: Firewalls in a Data Center, Case Study: Firewall High
Availability, IPS Architectures, Case Study: Secure Campus Edge Design (Internet
and Extranet Connectivity).
IP Multicast Security:
Multicast Security Challenges, Multicast Network Security Considerations.
Designing Network Access Control Solutions:
IEEE 802.1X, EAP, 802.1X supplicants, 802.1X phased deployment, Case Study:
Authorization Options.
PART VIII DESIGN SCENARIOS
Design Case Studies:
1: Enterprise Connectivity, 2: Enterprise BGP with Internet Connectivity, 3:
IPv6, 4: Data Center Connectivity, 5: Resilient Enterprise WAN, 6: Secure
Enterprise Network, 7: QoS in the Enterprise Network.