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Designing Cisco Enterprise Networks

kod szkolenia: ENSLD / ENG DL 5d

The Cisco authorized course ENSLD - Designing Cisco Enterprise Networks gives you the knowledge and skills you -  need to design an enterprise network. This course serves as a deep dive into enterprise network design and expands on the topics covered in the Implementing and Operating Cisco® Enterprise Network Core Technologies (ENCOR) v1.0 course.

This course also helps you prepare to take the exam, Designing Cisco Enterprise Networks (ENSLD), which is part of the CCNP® Enterprise and Cisco Certified Specialist - Enterprise Design certifications.

Cisco Continuing Education programme is a flexible offer dedicated to all active people who have certificates on Associate, Specialist and Expert level.

Learn more how you may recertify as part of CE to keep certification status active.

Cisco Continuing Education Program - CE

Taking part in authorised training allows you to obtain extra points necessary to maintain certification.

ENSLD: 40 points CE

W celu uzyskania informacji skontaktuj się z działem handlowym. W celu uzyskania informacji skontaktuj się z działem handlowym.
9 400,00 PLN 11 562,00 PLN brutto

The training is aimed at:

  • Network design engineers
  • Network engineers
  • System administrators

This course will help you:

  • Learn the skills, technologies, and best practices needed to design an enterprise network.
  • Deepen your understanding of enterprise design including advanced addressing and routing solutions, advanced enterprise campus networks, WAN, security services, network services, and software-defined access SDA.
  • Validate your knowledge and prepare to take the Designing Cisco Enterprise Networks (ENSLD) exam.
  • Earn 40 CE credits toward recertification

The training prepares you for the 300-420 ENSLD, exam, which can be taken for an additional fee at the PearsonVUE center. You can also take the exam on-line.

Details are available at: https://home.pearsonvue.com/cisco/onvue

Before taking this course, you should have earned CCNA® certification or be familiar with:

  • Basic network fundamentals and building simple LANs
  • Basic IP addressing and subnets
  • Routing and switching fundamentals
  • Basic wireless networking concepts and terminology
  • Training: English
  • Materials: English
  • 5 days in the classroom with instructor and design case study activities
  • Trainer’s supervision
  • Contact with community
  • Coursebook
  • Lab environment

Training method

  • lecture
  • workshops

After taking this course, you should be able to:

  • Design Enhanced Interior Gateway Routing Protocol (EIGRP) internal routing for the enterprise network
  • Design Open Shortest Path First (OSPF) internal routing for the enterprise network
  • Design Intermediate System to Intermediate System (IS-IS) internal routing for the enterprise network
  • Design a network based on customer requirements
  • Design Border Gateway Protocol (BGP) routing for the enterprise network
  • Describe the different types and uses of Multiprotocol BGP (MP-BGP) address families
  • Describe BGP load sharing
  • Design a BGP network based on customer requirements
  • Decide where the L2/L3 boundary will be in your Campus network and make design decisions
  • Describe Layer 2 design considerations for Enterprise Campus networks
  • Design a LAN network based on customer requirements
  • Describe Layer 3 design considerations in an Enterprise Campus network
  • Examine Cisco SD-Access fundamental concepts
  • Describe Cisco SD-Access Fabric Design
  • Design an Software-Defined Access (SD-Access) Campus Fabric based on customer requirements
  • Design service provider-managed VPNs
  • Design enterprise-managed VPNs
  • Design a resilient WAN
  • Design a resilient WAN network based on customer requirements
  • Examine the Cisco SD-WAN architecture
  • Describe Cisco SD-WAN deployment options
  • Design Cisco SD-WAN redundancy
  • Explain the basic principles of QoS
  • Design Quality of Service (QoS) for the WAN
  • Design QoS for enterprise network based on customer requirements
  • Explain the basic principles of multicast
  • Designing rendezvous point distribution solutions
  • Describe high-level considerations when doing IP addressing design
  • Create an IPv6 addressing plan
  • Plan an IPv6 deployment in an existing enterprise IPv4 network
  • Describe the challenges that you might encounter when transitioning to IPv6
  • Design an IPv6 addressing plan based on customer requirements
  • Describe Network APIs and protocols
  • Describe Yet Another Next Generation (YANG), Network Configuration Protocol (NETCONF), and Representational State Transfer Configuration Protocol (RESTCONF)

Outline

  • Designing EIGRP Routing
  • Designing OSPF Routing
  • Designing IS-IS Routing
  • Designing BGP Routing and Redundancy
  • Understanding BGP Address Families
  • Designing the Enterprise Campus LAN
  • Designing the Layer 2 Campus
  • Designing the Layer 3 Campus
  • Discovering the Cisco SD-Access Architecture
  • Exploring Cisco SD-Access Fabric Design
  • Designing Service Provider-Managed VPNs
  • Designing Enterprise-Managed VPNs
  • Designing WAN Resiliency
  • Examining Cisco SD-WAN Architectures
  • Cisco SD-WAN Deployment Design Considerations
  • Designing Cisco SD-WAN Routing and High Availability
  • Understanding QoS
  • Designing LAN and WAN QoS
  • Exploring Multicast with Protocol-Independent Multicast-Sparse Mode
  • Designing Rendezvous Point Distribution Solutions
  • Designing an IPv4 Address Plan
  • Exploring IPv6
  • Deploying IPv6
  • Introducing Network APIs and Protocols
  • Exploring YANG, NETCONF, RESTCONF, and Model-Driven Telemetry

Lab outline

  • Designing Enterprise Connectivity
  • Designing an Enterprise Network with BGP Internet Connectivity
  • Designing an Enterprise Campus LAN
  • Designing Resilient Enterprise WAN
  • Designing QoS in an Enterprise Network
  • Designing an Enterprise IPv6 Network