Description
The Course Name: ARCH – Designing Cisco Network Service Architectures v3.0
The Overview:
The purpose of this course is to teach participants how to perform the conceptual, intermediate, and detailed design of a network infrastructure which supports desired network solutions over intelligent network services in order to achieve effective performance, scalability, and availability.
The Course Duration: 5 Days
What You Will Learn:
- Cisco Network Architectures for the Enterprise and how this concept should address enterprise network needs in order to increase and obtain performance, scalability, and availability
- Cisco Network Architectures for the Enterprise users as a framework to design enterprise networks
- Enterprise campus network designs
- Enterprise data center designs
- Enterprise edge and remote infrastructure designs
- Network service designs for security considerations
- VPN designs
The Course Index:
Cisco Network Architectures for the Enterprise
- Network Architectures for the Enterprise
- Cisco PPDIOO Approach
Enterprise Campus Network Design
- High Availability in the Enterprise Campus
- Layer 2 Design Recommendations
- Layer 3 Design Recommendations
- Designing the Layer 2-to-Layer 3 Boundary
- Enterprise Network Virtualization Technologies
- Infrastructure Services Considerations
Advanced Addressing and Routing Design
- Advanced Addressing Design
- Advanced Routing Design
- Scalable EIGRP Design
- Scalable OSPF Design
- Scalable BGP Design
Advanced WAN Services Design Considerations
- Optical Technologies for WANs
- Using Metro Ethernet, VPLS, and MPLS VPN Technologies
- Advanced WAN Service Implementations
Enterprise Data Center Design
- Core and Aggregation Layer Design
- Access Layer Design
- Scaling the Data Center Architecture
- Spanning-Tree Sizing and High Availability
E-Commerce Module Design
- Common Component Designs for the E-Commerce Module
- Integrated e-Commerce Designs
SAN Design Considerations
- SAN Components and Technologies
- SAN and SAN Extension Design
- Integrated Fabric Designs Using Cisco Nexus Technology
Security Services Design
- Firewall Design Considerations
- Network Admission Control Design
- Intrusion Detection and Prevention Designs
IPsec and SSL VPN Design
- Remote Access VPN Design
- Site-to-Site VPN Design
- IPsec VPN Technologies
- VPN Management and Scaling
IP Multicast Design
- IP Multicast
- PIM and RP Considerations
- IP Multicast Security
Network Management Capabilities with Cisco IOS Software
- Embedded Management Capabilities
- NetFlow Considerations
- NBAR Considerations
- IP SLA Considerations
ROUTE – Implementing Cisco IP Routing v2.0
- Basic Network and Routing Concepts
- Differentiating Routing Protocols
- Understanding Network Technologies
- Connecting Remote Locations with the Headquarters
- Implementing RIPng
- EIGRP Implementation
- Establishing EIGRP Neighbor Relationships
- Building the EIGRP Topology Table
- Optimizing EIGRP Behavior
- Configuring EIGRP for IPv6
- Discovering Named EIGRP Configuration
- OSPF Implementation
- Establishing OSPF Neighbor Relationship
- Building the Link State Database
- Optimizing OSPF Behavior
- Configuring OSPFv3
- Configuration of Redistribution
- Implementing Basic Routing Protocol Redistribution
- Manipulating Redistribution Using Route Filtering
- Path Control Implementation
- Using Cisco Express Forwarding Switching
- Implementing Path Control
- Enterprise Internet Connectivity
- Planning Enterprise Internet Connectivity
- Establishing Single-Homed IPv4 Internet Connectivity
- Establishing Single-Homed IPv6 Internet Connectivity
- Improving Resilience of Internet Connectivity
- Considering Advantages of Using BGP
- Implementing Basic BGP Operations
- Using BGP Attributes and Path Selection Process
- Controlling BGP Routing Updates
- Implementing BGP for IPv6 Internet Connectivity
- Routers and Routing Protocol Hardening
- Securing Cisco Routers
- Describing Routing Protocol Authentication Options
- Configuring EIGRP Authentication
- Configuring OSPF Authentication
- Configuring BGP Authentication