Network Design Zero-To-Hero By Arash Deljoo
Published 7/2023
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 3.45 GB | Duration: 10h 20m
Published 7/2023
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 3.45 GB | Duration: 10h 20m
Designing for Cisco Network Service Architectures ( will update )
What you'll learn
Enterprise Campus Design Principles
EIGRP Design
OSPF Design
IS-IS Design
BGP Design
IPv6 Design
Challenges of the Transition to IPv6
Service Provider Managed VPNs
Enterprise IP Multicast Design
Requirements
Technical knowledge of Network Technologies
Description
Enterprise environments require networks designed for performance, availability, and scalability to achieve outcomes. Seasoned IT professionals with progressive end-to-end network design expertise are crucial in ensuring networks deliver to meet today’s requirements while future-proofing investments. For senior network design engineers, principal system engineers, network/solution architects, and CCDA professionals looking to build on your fundamental Cisco network design expertise, the Cisco CCDP certification program focuses on advanced addressing and routing protocols, WANs, service virtualization, and integration strategies for multilayered enterprise architectures.Students will be able to design and understand the inner workings of all elements within the common enterprise network, including internal routing, BGP routing, modern WAN connectivity, modern data center and data center interconnect, basic network security considerations, advanced quality-of-service design, transition to IPv6, and multicast routing design.Designing Cisco Network Service Architectures enables network designers, engineers, architects, and CCDP candidates to perform the conceptual, intermediate, and detailed design of a network infrastructure that supports desired network solutions over intelligent network services to achieve effective performance, scalability, and availability.By applying solid Cisco network solution models and recommended design practices, this course enables learners to provide viable, stable enterprise internetworking solutions. This book presents concepts and examples necessary to design converged enterprise networks. Also, this course has content addressing software-defined networks (SDNs). You will learn additional aspects of modular campus design, advanced routing designs, WAN service designs, enterprise data center design, and security design.
Overview
Section 1: Enterprise Campus Design Principles
Lecture 1 Hierarchy
Lecture 2 Modularity
Lecture 3 Flexibility
Lecture 4 Resiliency (A)
Lecture 5 Resiliency (B)
Section 2: EIGRP Design
Lecture 6 EIGRP with Multiple AS , Multilayer Architectures
Lecture 7 EIGRP Hub-and-Spoke Design
Lecture 8 EIGRP Fast Convergence and GR-NSF
Section 3: OSPF Design
Lecture 9 OSPF Scalability Design Considerations
Lecture 10 OSPF Area Design Considerations
Lecture 11 OSPF Full Mesh and Hub & Spoke Design
Lecture 12 OSPF Convergence Design Considerations
Section 4: IS-IS Design
Lecture 13 IS-IS Characteristics , Integrated IS-IS Routing
Lecture 14 IS-IS Hierarchical Architecture
Lecture 15 IS-IS Versus OSPF
Lecture 16 IS-IS Technical Deep Dive
Lecture 17 IS-IS Routing Logic and Route-Leaking
Lecture 18 Flat and Hierarchical IS-IS Routing and Routes Summarization
Lecture 19 Integrated IS-IS for IPv6
Section 5: BGP Design
Lecture 20 BGP Overview
Lecture 21 Designing Scalable iBGP Networks
Lecture 22 BGP Route Reflector Design
Lecture 23 Enhancing the Design of BGP Policies with BGP Communities
Lecture 24 Case Study Designing Enterprise wide BGP Policies
Lecture 25 BGP Load-Sharing Design
Section 6: IPv6 Design
Lecture 26 IPv6 Deployment and Design Considerations
Lecture 27 Considerations for Migration to IPv6 Design
Lecture 28 IPv6 Transition Mechanisms [A]
Lecture 29 IPv6 Transition Mechanisms
Section 7: Challenges of the Transition to IPv6
Lecture 30 IPv6 Services
Lecture 31 Link Layer Security Considerations
Section 8: Service Provider Managed VPNs
Lecture 32 Choose your WAN connection
Lecture 33 MPLS VPN Architecture
Section 9: Enterprise IP Multicast Design
Lecture 34 How Does IP Multicast Work
Lecture 35 Multicast Group
Lecture 36 IP Multicast Service Model
Lecture 37 Functions of a Multicast Network
Lecture 38 Multicast Protocols
Lecture 39 Multicast Forwarding and RPF Check
Lecture 40 RPF Check Fails and Succeeds
Lecture 41 Multicast Protocol Basics
Lecture 42 Basic SSM Concepts
Network designers, architects, consultants, or engineers seeking a thorough understanding of enterprise network design,Network engineers or architects who are studying for the CCDE certification and need to improve their foundational knowledge of modern enterprise network design,Anyone wanting to understand basic and advanced network design with an intermediate to advanced level of experience