Cisco ACI + Cisco SDWAN + Cisco NEXUS

(3-IN-1 COMBO PACKAGE)

CISCO ACI | From 11 SEPT 2021 | SAT & SUN ONLY | 6:30 PM IST | 8:00 AM CST | 11:00 PM AEST | 5:00 PM Dubai | 9:00 AM EST (Daily 1:30 Hrs Only)

CISCO SDWAN | SAME AS CISCO ACI TIMESLOT | WILL COMMENCE ONCE CISCO ACI IS COMPLETED

CISCO NEXUS | SAME AS CISCO SDWAN TIMESLOT | WILL COMMENCE ONCE CISCO SDWAN IS COMPLETED

Live Class Starting In …….

Course Content Overview

Cisco ACI [300-620] DCACI

Module 1: Introducing Cisco ACI Fabric Infrastructure and Basic Concepts
  • What Is Cisco ACI?
  • Cisco ACI Topology and Hardware
  • Cisco ACI Object Model
  • Faults, Event Record, and Audit Log
  • Cisco ACI Fabric Discovery
  • Cisco ACI Access Policies
Module 2: Describing Cisco ACI Policy Model Logical Constructs
  • Cisco ACI Logical Constructs
  • Tenant
  • Virtual Routing and Forwarding
  • Bridge Domain
  • Endpoint Group
  • Application Profile
  • Tenant Components Review
  • Adding Bare-Metal Servers to Endpoint Groups
  • Contracts
Module 3: Describing Cisco ACI Basic Packet Forwarding
  • Endpoint Learning
  • Basic Bridge Domain Configuration Knob
Module 4: Introducing External Network Connectivity
  • Cisco ACI External Connectivity Options
  • External Layer 2 Network Connectivity
  • External Layer 3 Network Connectivity
Module 5: Introducing VMM Integration
  • VMware vCenter VDS Integration
  • Resolution Immediacy in VMM
  • Alternative VMM Integrations
  • Explaining Cisco ACI Management
  • Role-Based Access Control
  • In-Band Management
  • Cisco ACI Upgrade
  • Collect Tech Support
Module 6: Describing Layer 4 to Layer 7 Integrations
  • Service Appliance Insertion Without ACI L4-L7 Service Graph
  • Service Appliance Insertion via ACI L4-L7 Service Graph
  • Service Graph Configuration Workflow
  • Service Graph PBR Introduction
Module 7: Explaining Cisco ACI Management
  • Out-of-Band Management
  • In-Band Management
  • Syslog
  • Simple Network Management Protocol
  • Configuration Backup
  • Authentication, Authorization, and Accounting
Module 8: Lab Workbook
  • Lab#1 Validate Fabric Discovery
  • Lab#2 Configure Network Time Protocol (NTP)
  • Lab#3 Create Access Policies and Virtual Port Channel (vPC)
  • Lab#4 Enable Layer 2 Connectivity in the Same Endpoint Group (EPG)
Module 9: Lab Workbook (contd)
  • Lab#5 Enable Inter-EPG Layer 2 Connectivity
  • Lab#6 Enable Inter-EPG Layer 3 Connectivity
  • Lab#7 Compare Traffic Forwarding Methods in a Bridge Domain
  • Lab#8 Configure External Layer 2 (L2Out) Connection
Module 10: Lab Workbook (contd)
  • Lab#9 Configure External Layer 3 (L3Out) Connection
  • Lab#10 Integrate Application Policy Infrastructure Controller (APIC) With VMware
  • Lab#11 vCenter Using VMware Distributed Virtual Switch (DVS)

Cisco SD-WAN [300-415] ENSDWI

20% 1.0 Architecture
  • [THEORY] 1.1 Describe Cisco SD-WAN architecture and components
  • [THEORY] 1.1.a Orchestration plane (vBond, NAT)
  • [THEORY] 1.1.b Management plane (vManage)
  • [THEORY] 1.1.c Control plane (vSmart, OMP)
  • [THEORY] 1.1.d Data plane (WAN Edge)
  • [THEORY] 1.1.d (i) TLOC
  • [THEORY] 1.1.d (ii) IPsec and GRE
  • [THEORY] 1.1.d (iii) vRoute
  • [THEORY] 1.1.d (iv) BFD
  • [THEORY] 1.2 Describe Cisco SD-WAN Edge platforms and capabilities
  • [THEORY] 1.3 Describe Cisco SD-WAN Cloud OnRamp
  • [THEORY] 1.3.a SaaS
  • [THEORY] 1.3.b IaaS
  • [THEORY] 1.3.c Colocation
15% 2.0 Controller Deployment
  • [THEORY] 2.1 Describe controller cloud deployment
  • [THEORY] 2.2 Describe controller on-premises deployment
  • [THEORY] 2.2.a Hosting platform (KVM and Hypervisor)
  • [THEORY] 2.2.b Installing controllers
  • [THEORY] 2.2.c Scalability and redundancy
  • [THEORY] 2.3 Configure certificates and device lists
  • [THEORY] 2.4 Troubleshoot control plane connectivity between controllers
Router Deployment
  • [THEORY] 3.5 Configure CLI and vManage feature configuration templates
  • [THEORY] 3.5.a VRRP
  • [THEORY] 3.5.b OSPF
20% 3.0 Router Deployment
  • [THEORY] 3.5.c BGP
  • [THEORY] 3.5.d EIGRP
  • [THEORY] 3.6 Describe multicast support in Cisco SD-WAN
  • [THEORY] 3.1 Describe WAN Edge deployment
  • [THEORY] 3.1.a On-boarding
  • [THEORY] 3.1.b Orchestration with zero-touch provisioning and plug-and-play
  • [THEORY] 3.1.c Data center and regional hub deployments
  • [THEORY] 3.2 Configure Cisco SD-WAN data plane
  • [THEORY] 3.2.a Circuit termination and TLOC-extension
  • [THEORY] 3.2.b Dynamic tunnels
  • [THEORY] 3.2.c Underlay-overlay connectivity
  • [THEORY] 3.3 Configure OMP
  • [THEORY] 3.4 Configure TLOCs
20% 4.0 Policies
  • [THEORY] 4.1 Configure control policies
  • [THEORY] 4.2 Configure data policies
  • [THEORY] 4.3 Configure end-to-end segmentation
  • [THEORY] 4.3.a VPN segmentation
  • [THEORY] 4.3.b Topologies
  • [THEORY] 4.4 Configure Cisco SD-WAN application-aware routing
  • [THEORY] 4.5 Configure direct Internet access
Security and Quality of Service
  • [THEORY] 5.3.a. DNS security
  • [THEORY] 5.3.b. Secure Internet Gateway (SIG)
  • [THEORY] 5.4 Configure QoS treatment on WAN Edge routers
15% 5.0 Security and Quality of Service
  • [THEORY] 5.1 Configure service insertion
  • [THEORY] 5.2 Describe Cisco SD-WAN security features
  • [THEORY] 5.2.a. Application-aware enterprise firewall
  • [THEORY] 5.2.b IPS
  • [THEORY] 5.2.c URL filtering
  • [THEORY] 5.2.d AMP
  • [THEORY] 5.2.e SSL and TLS proxy
  • [THEORY] 5.3 Describe Cloud security integration
  • [THEORY] 5.4.a Scheduling
  • [THEORY] 5.4.b Queuing
10% 6.0 Management and Operations
  • [THEORY] 6.1 Describe authentication, monitoring, and reporting from vManage
  • [THEORY] 6.2 Configure authentication, monitoring, and reporting
  • [THEORY] 6.3 Describe REST API monitoring
  • [THEORY] 6.4 Describe software image management from vManage
Security and Quality of Service
  • [THEORY] 5.4.c Shaping
  • [THEORY] 5.4.d Policing
  • [THEORY] 5.4.e Marking
  • [THEORY] 5.4.f Per-tunnel and adaptive QoS
Module 7: Lab Workbook
  • [LAB] Lab#1: Configuration of Provider Network
  • [LAB] Task1.1: Configure MPLS Router
  • [LAB] Task1.2: Configure Internet
  • [LAB] Task1.3: Configure 4G LTE
  • [LAB] Task1.4: Configure ALPHA-HQ LTE
  • [LAB] Lab#2: Initialization of vManage via CLI
  • [LAB] Task2.1: Configure vManage System Parameters
  • [LAB] Task2.2: Configure vManage VPN 0 Configuration
  • [LAB] Task2.3: Configure vManage VPN 512 Configuration
  • [LAB] Lab#3: Initialization of vBond via CLI
  • [LAB] Task3.1: Configure vBond System Parameters
  • [LAB] Task3.2: Configure vBond VPN 0 Configuration
  • [LAB] Task3.3: Configure vBond VPN 512 Configuration
  • [LAB] Lab#4: Initialization of vSmart via CLI
  • [LAB] Task4.1: Configure vSmart System Parameters
  • [LAB] Task4.2: Configure vSmart VPN 0 Configuration
  • [LAB] Task4.3: Configure vSmart VPN 512 Configuration
  • [LAB] Lab#5: Initialization of ETA Site vEdges via CLI
  • [LAB] Task5.1: Configure vEdge1-ETA System Parameters
  • [LAB] Task5.2: Configure vEdge1-ETA VPN 0 Configuration
  • [LAB] Task5.3: Configure vEdge2-ETA System Parameters
  • [LAB] Task5.4: Configure vEdge2-ETA VPN 0 Configuration
  • [LAB] Lab#6: Initialization of GAMMA Site vEdges via CLI
  • [LAB] Task6.1: Configure vEdge1-GAMMA System Parameters
  • [LAB] Task6.2: Configure vEdge1-GAMMA VPN 0 Configuration
  • [LAB] Task6.3: Configure vEdge2-GAMMA System Parameters
  • [LAB] Task6.4: Configure vEdge2-GAMMA VPN 0 Configuration
  • [LAB] Lab#7: Initialization of ZETA Site vEdge via CLI
  • [LAB] Task7.1: Configure vEdge1-ZETA System Parameters
  • [LAB] Task7.2: Configure vEdge1-ZETA VPN 0 Configuration
  • [LAB] Lab#8: Initialization of DELTA Site vEdge via CLI
  • [LAB] Task8.1: Configure vEdge1-DELTA System Parameters
  • [LAB] Task8.2: Configure vEdge1-DELTA VPN 0 Configuration
  • Lab#9: Configure Windows Server as CA Server
Module 8: Lab Workbook (contd)
  • [LAB] Task9.1: Configure Windows Server Network Adapter
  • [LAB] Task9.2: Add CA Server role in Windows Server
  • [LAB] Lab#10: Generate Root Certificate from CA Server
  • [LAB] Task10.1: Complete basic initial configuration of vManage via GUI
  • [LAB] Task10.2: Generate root certificate from CA server and Install it to vManage
  • [LAB] Task10.3: Generate CSR from vManage
  • [LAB] Task10.4: Issue Identity Certificate from CA Server
  • [LAB] Task10.5: Install Identity Certificate to vManage
  • [LAB] Lab#11: Add vBond to vManage and Generate Identity Certificate for vBond
  • [LAB] Task11.1: Add vBond to vManage
  • [LAB] Task11.2: Generate CSR from vBond
  • [LAB] Task11.3: Issue Identity Certificate from CA Server
  • [LAB] Task11.4: Install Identity Certificate to vBond
  • [LAB] Lab#12: Add vSmart to vManage and Generate Identity Certificate for vSmart
  • [LAB] Task12.1: Add vSmart to vManage
  • [LAB] Task12.2: Generate CSR from vSmart
  • [LAB] Task12.3: Issue Identity Certificate from CA Server
  • [LAB] Task12.4: Install Identity Certificate to vSmart
  • [LAB] Lab#13: Initialization of BETA Site cEdge via CLI
  • [LAB] Task13.1: Configure cEdge1-BETA System Parameters
  • [LAB] Task13.2: Configure cEdge1-BETA interface
  • [LAB] Lab#14: Enable Tunnel Interface on VPN0 Interfaces
  • [LAB] Task14.1: Enable Tunnel interface inside VPN0 on vManage, vBond, vSmart, vEdges /cEdges & allow service all, sshd and netconf
  • [LAB] Lab#15: Uploading viptela.serial file to vManage
  • [LAB] Task15.1: Upload viptela.serial file to vManage for registering vEdges and cEdges to vManage
  • [LAB] Lab#16: Register vEdge/cEdge to vManage
  • [LAB] Task16.1: Upload the Root certificate from vManage to vEdge/cEdge
  • [LAB] Task16.2: Install the Root certificate on vEdges/cEdge
  • [LAB] Task16.3: Activate vEdges/cEdge
  • [LAB] Task16.4: Once vEdge/cEdge are activated, check control connections from all vEdges/cEdges
  • [LAB] Lab#17: Configure Internal Routing on ETA|ZETA|DELTA|BETA Sites
  • [LAB] Task17.1: Configure basic ip addressing and Enable OSPF routing on SW1-ETA & SW2-ETA
  • [LAB] Task17.2: Configure Basic ip addressing and Enable BGP routing on SW1-DELTA & SW1-BETA
  • [LAB] Task17.3: Adding Configuration for extra MPLS link added on DELTA Site
Module 9: Lab Workbook (contd)
  • [LAB] Lab#18: Configure Feature Templates
  • [LAB] Task18.1: Configure Feature System template to be used by vEdges
  • [LAB] Task18.2: Configure Feature VPN0 template to be used by vEdges
  • [LAB] Task18.3: Configure Feature VPN0 Interface template (MPLS) to be used by vEdges
  • [LAB] Task18.4: Configure Feature VPN0 Interface template (INT) to be used by vEdges
  • [LAB] Task18.5: Configure Feature VPN0 Interface template (LTE) to be used by vEdges
  • [LAB] Task18.6: Configure Feature VPN512 template to be used by vEdges
  • [LAB] Task18.7: Configure Feature VPN512 Interface template to be used by vEdges
  • [LAB] Task18.8: Configure Feature VPN100 template to be used by vEdges
  • [LAB] Task18.9: Configure Feature VPN100 Interface template (SERVICE) to be used by vEdges
  • [LAB] Task18.10: Configure Feature VPN100 OSPF template to be used by vEdges
  • [LAB] Task18.11: Configure Feature VPN100 BGP template to be used by vEdges
  • [LAB] Task18.12: Configure Feature OMP template to be used by vEdges
  • [LAB] Lab#19: Configure Device Templates
  • [LAB] Task19.1: Configure Device Template used by vEdge ETA1 & vEdge ZETA1
  • [LAB] Task19.2: Attach Device Template to be used by vEdge ETA1 & vEdge ZETA1
  • [LAB] Task19.3: Configure Variables in Device Template to be used by vEdge ETA1 & vEdge ZETA1
  • [LAB] Task19.4: Apply Device Template to be used by vEdge ETA1 & vEdge ZETA1
  • [LAB] Task19.5: Configure Device Template used by vEdge1-DELTA
  • [LAB] Task19.6: Attach Device Template to be used by vEdge1-DELTA
  • [LAB] Task19.7: Configure Variables in Device Template to be used by vEdge1-DELTA
  • [LAB] Task19.8: Apply Device Template to be used by vEdge1-DELTA
  • [LAB] Lab#20: Verification on vEdge ETA | ZETA | DELTA Site
  • [LAB] Task20.1: Simulate traffic flow from vEdge1-ETA to vEdge1-ZETA
  • [LAB] Task20.2: Simulate traffic flow from vEdge1-DETA to vEdge1-ZETA
  • [LAB] Task20.3: Routing Table for VPN 100 shows all prefixes from all sites via OMP on vEdge1-ETA,vEdge1-ZETA, vEdge1-DELTA
  • [LAB] Task20.4: Ping & Traceroute from DELTA Switch to ETA | ZETA LAN Segment
Module 10: Lab Workbook (contd)
  • [LAB] Lab21: Configure CLI Template
  • [LAB] Task21.1: Configure vEdge ETA2 using CLI template
  • [LAB] Task21.2: Attach Device Template to be used by vEdge ETA2
  • [LAB] Task21.3: Configure Variables in Device Template to be used by vEdge ETA2
  • [LAB] Task21.4: Apply Device Template to be used by vEdge ETA2
  • [LAB] Lab22: Verification on vEdge-ETA2
  • [LAB] Task22.1: Simulate traffic flow from vEdge2-ETA to vEdge1-ZETA
  • [LAB] Task22.2: Routing Table for VPN 100 shows all prefixes from all sites via OMP on vEdge2-ETA
  • [LAB] Task22.3: Ping & Traceroute from ETA2 Switch to ZETA LAN Segment
  • [LAB] Lab23: Configure Feature Templates for CSR device
  • [LAB] Task23.1: Configure Feature System template to be used by cEdge
  • [LAB] Task23.2: Configure Feature VPN0 template to be used by CSR
  • [LAB] Task23.3: Configure Feature VPN0 Interface template (MPLS) to be used by cEdge
  • [LAB] Task23.4: Configure Feature VPN0 Interface template (INT) to be used by cEdge
  • [LAB] Task23.5: Configure Feature VPN512 template to be used by CSR
  • [LAB] Task23.6: Configure Feature VPN512 Interface template to be used by cEdges
  • [LAB] Task23.7: Configure Feature VPN100 template to be used by cEdges
  • [LAB] Task23.8: Configure Feature VPN100 Interface template (SERVICE) to be used by cEdges .
  • [LAB] Task23.9: Configure Feature VPN100 BGP template to be used by cEdges
  • [LAB] Task23.9: Configure Feature OMP template to be used by cEdges
  • [LAB] Lab24: Configure Device Template for cEdge
  • [LAB] Task24.1: Configure Device Template used by cEdge ETA2
  • [LAB] Task24.2: Attach Device Template to be used by cEdge BETA1
  • [LAB] Task24.3: Configure Variables in Device Template to be used by cEdge BETA
  • [LAB] Task24.4: Apply Device Template to be used by cEdge BETA1
  • [LAB] Lab25: Verification on cEDGE1-BETA
  • [LAB] Task25.1: Checking outbound-connections on cEDGE1-BETA and vEdge1-DELTA
  • [LAB] Task25.2: Verifying routes on SW1-BETA from other sites LAN Segment
  • [LAB] Task25.3: Ping & Traceroute from SW1-BETA to ZETA|ETA LAN Segments
  • [LAB] Lab26: Advertising TLOC EXT subnets in service provider networks
Module 11: Lab Workbook (contd)
  • [LAB] Task26.1: Advertised TLOC EXT Subnets on HQ1-ALPHA, MPLS and INTERNET
  • [LAB] Task26.2: Update Lab Diagram on GAMMA Site as per below Diagram
  • [LAB] Task26.3: Configure basic ip addressing and Enable OSPF routing on SW1-GAMMA
  • [LAB] Lab27: TLOC Extension Lab on GAMMA SITE
  • [LAB] Task27.1: Configure Feature VPN0 template to be used by vEdge1-GAMMA & vEdge2-GAMMA
  • [LAB] Task27.2: Configure Feature VPN0 Interface template (Extension-Interface) to be used by vEdges GAMMA1 & GAMMA2
  • [LAB] Task27.3: Configure Feature VPN0 Interface template (Tunnel-Interface) to be used by v Edges GAMMA1 & GAMMA2
  • [LAB] Lab28: Configure Device Templates for GAMMA1 and GAMMA2
  • [LAB] Task28.1: Configure Device Template used by vEdge1-GAMMA
  • [LAB] Task28.2: Attach Device Template to be used by vEdge1-GAMMA
  • [LAB] Task28.3: Configure Device Template used by vEdge2-GAMMA
  • [LAB] Task28.4: Attach Device Template to be used by vEdge2-GAMMA
  • [LAB] Lab29: Verification on vEdge1-GAMMA & vEdge2-GAMMA
  • [LAB] Task29.1: Checking omp tloc-advertised on vEdge1-GAMMA & vEdge2-GAMMA
  • [LAB] Task29.2: Checking omp tloc-paths on vSmart
  • [LAB] Lab30: VRRP Lab on GAMMA SITE
  • [LAB] Task30.1: Configure Feature vEdge-VPN100-SERVICE G0/3 template for VRRP to be used by vEdge1-GAMMA & vEdge2-GAMMA
  • [LAB] Task30.2: Configure Device Template and replace existing vEdge-VPN100-SERVICE-G0/3 by newly created VRRP Template (vEdge-VPN100-VRRP-SERVICE-G0/3) used by vEdge1-GAMMA
  • [LAB] Task30.4: Configure Device Template and replace existing vEdge-VPN100-SERVICE-G0/3 by newly created VRRP Template (vEdge-VPN100-VRRP-SERVICE-G0/3) used by vEdge2-GAMMA
  • [LAB] Task30.5: Verification of VRRP on vEdge1-GAMMA & vEdge2-GAMMA
  • [LAB] Lab31: Verify current Mode on vSmart (CLI / vManage) and apply a template if required
  • [LAB] Task31.1: Verify current mode on vSmart (CLI / vManage)
  • [LAB] Task31.2: Configure System Feature Template for vSmart
  • [LAB] Task31.3: Configure VPN0 Feature Template for vSmart
  • [LAB] Task31.4: Configure VPN0 Interface Feature Template for vSmart
  • [LAB] Task31.5: Configure VPN512 Feature Template for vSmart
  • [LAB] Task31.5: Configure VPN512 Interface Feature Template for vSmart
Module 12: Lab Workbook (contd)
  • [LAB] Task31.6: Configure Device Template for vSmart
  • [LAB] Task31.7: Attach Device Template to be used by vSmart
  • [LAB] Task31.8: Configure Variables in Device Template to be used by vSmart
  • [LAB] Task31.9: Apply Device Template to be used by vSmart
  • [LAB] Task31.10: Verify new mode on vSmart (CLI / vManage)
  • [LAB] Lab32: Control Plane Policy – Blocking Subnets
  • [LAB] Task32.1: Create Lists
  • [LAB] Task32.2: Create Topology (Control Policies)
  • [LAB] Task32.3: Add Policy
  • [LAB] Task32.4: Pre-Verification // Verify routes from Delta LAN Segment to SW2-ETA
  • [LAB] Task32.5: Activate the policy
  • [LAB] Task32.6: Post-Verification || Verify routes from Delta LAN Segment to SW2-ETA
  • [LAB] Lab33: Data Plane Policy – Blocking Telnet Access
  • [LAB] Task33.1: Create Lists
  • [LAB] Task33.2: Create Traffic Rules (Data Policies)
  • [LAB] Task33.3: Pre-Verification // Verify telnet from Delta Site to Zeta Site
  • [LAB] Task33.4: Activate the policy .
  • [LAB] Task33.5: Post-Verification // Verify telnet from Delta Site to Zeta Site
  • [LAB] Lab34: Hub & Spoke Topology
  • [LAB] Task34.1: Create Lists .
  • [LAB] Task34.2: Create Topology (Hub & Spoke Policy)
  • [LAB] Task34.3: Add Policy
  • [LAB] Task34.4: Activate the policy
  • [LAB] Task34.5: Post-Verification || Verify Routes Again
  • [LAB] Task34.6: Copy & Configure Feature VPN100 template to be used by vEdge1-Delta
  • [LAB] Task34.7: Edit Device Template used by vEdge1-DELTA
  • [LAB] Lab35: Application Aware Routing
  • [LAB] Task35.1: Create Lists
  • [LAB] Task35.2: Create Traffic Rules (Data Policies)
  • [LAB] Task35.3: Add Policy
  • [LAB] Task35.4: Pre-Verification || Verify path from ZETA to DELTA Site
  • [LAB] Task35.5: Activate the policy
  • [LAB] Task35.6: Post-Verification || Verify path from ZETA to DELTA Site after Policy
  • [LAB] Task35.7: Post-Verification After SLA breached|| Verify path from ZETA to DELTA Site after Policy

Cisco NEXUS 9k, 7k, 5k, 2k

Module 1: Identifying Cisco Nexus Platforms

  • Cisco Nexus 7000 and 7700 Series Overview
  • Cisco Nexus 5600 Series Overview
  • Cisco Nexus 3000 Series Overview
  • Cisco Nexus 2000 Series Overview

Module 2: Cisco Nexus 9000 Topology Options

  • Traditional Data Center Topologies
  • Spine-and-Leaf Topology
  • Overlay Topologies

Module 3: Cisco NX-OS Software

  • Cisco NX-OS Software
  • Cisco Nexus 9000 NX-OS Features
  • Cisco Nexus 9000 Manageability
  • Licensing Model

Module 5: Managing Cisco Nexus Platforms

  • Managing Cisco Nexus Platforms
  • Cisco Nexus Command-line Interface (CLI) and GUI Management Interfaces
  • Cisco NX-OS Setup Utility
  • PowerOn Auto Provisioning

Module 6: VDC

  • Describing Virtual Device Contexts (VDC)
  • Virtual Device Context
  • VDC Types
  • VDC Resources and Resource Templates

Module 7: Switching Protocols

  • Implementing Data Center Switching Protocols
  • Spanning Tree Protocol

Module 8: vPC

  • Describing Port Channels and Virtual Port Channels
  • Port Channel Operation
  • vPC Concept and Benefits
  • vPC Architecture
  • vPC Control and Data Plane

Module 9: First Hop Redundancy Protocols

  • Configuring First Hop Redundancy Protocols
  • Hot Standby Router Protocol (HSRP) Overview
  • Virtual Router Redundancy Protocol (VRRP) Overview
  • Gateway Load Balancing Protocol (GLBP) Overview
  • First Hop Redundancy Protocol (FHRP) for IPv6

Module 10: Implementing Routing

  • Implementing Routing in Data Center
  • Open Shortest Path First (OSPF) v2 and Open Settlement Protocol (OSP) v3
  • Border Gateway Protocol

Module 11: Overlay Protocols

  • Implementing Data Center Overlay Protocols
  • Cisco Overlay Transport Virtualization

Module 12: VXLAN

  • Implementing VXLAN in a Data Center
  • Network Overlays in a Data Center
  • VXLAN Overlay
  • VXLAN BGP eVPN Control Plane
  • VXLAN Data Plane

Module 13: Multicast

  • Implementing Multicast in Data Center
  • IP Multicast in Data Center Networks
  • Internet Group Management Protocol (IGMP) and Multicast Listener Discovery (MLD)
  • Multicast Distribution Trees and Routing Protocols
  • IP Multicast on Cisco Nexus Switches

Module 14: Infrastructure Security

  • Implementing Network Infrastructure Security
  • User Accounts and Role Based Access Control (RBAC)
  • Authentication, Authorization, and Accounting (AAA) and SSH on Cisco NX-OS
  • Keychain Authentication
  • First Hop Security
  • Media Access Control Security
  • Control Plane Policing
 
 
Our Lab Topology | 1 x vManage + 1 x vSmart + 1 x vBond + 8 x vEdge + 2 x CSR1kv + 3 x Router + 1 x ASAv
Our Lab Topology for Cisco Nexus | 4 x NXOS9k + 2 x L2 Switch + 2 x L3 Router + 2 x User + 2 x Server

Why SDN?

SOFTWARE-DEFINED NETWORK

Benefits Joining Our Batch ?

✅ Flexible Course Start Date & Timings, refer at top for Date & Timing for each track module

✅ The detailed Online Live Classes will last 1 to 1:30 Hrs each

✅ The Course includes Class notes, Workbook with good numbers of labs.

✅ 300 Hrs of Lab Rack Access to be provided with every Module

✅ Each Class is focused on teaching SDN via Lab Practical Demonstration

✅ 24×7 After Class Lab Support Available

✅ Multiple Free Re-takes Available of the Same Enrolled Course

✅ Lifetime Access to Webportal containing Recording Videos, Google drive link to Automation Tools and Software’s

0
and more ...

Labs Workbook

Available…

0
and more ...

Hours Of Lab Access with Each Module…

First 2 Class Are Free To Join:​

11 Sep

Demo#1

  • 18:30 pm
  • Online Zoom Meeting Invite

This is for FREE Demo 1 Link. Zoom meeting ID will be updated atleast 24Hrs prior to demo class

12 Sep

Demo#2

  • 18:30 pm
  • Online Zoom Meeting Invite

This is for FREE Demo 2 Link. Zoom meeting ID will be updated atleast 24Hrs prior to demo class

Testimonials

Sagar is a seasoned Cisco Technology Instructor with proven Industry experience. I have been privileged to attend his live training in CCNP Enterprise & Network Automation and the knowledge gained is invaluable. His style of teaching references real time examples and his ability to breakdown complex topics into easily understandable chunks is outstanding. He is without a doubt highly recommended.
John Doe
CISCO Certified | Network Engineering & Security Managemen
THIS COURSE IS AWARDED AS "MOST REQUESTED COURSE" | RATINGS:
5/5

Frequently asked questions(FAQ)

 

FAQ

Software-Defined Networking (SDN) is a network architecture approach that enables the network to be intelligently and centrally controlled, or ‘programmed,’ using software applications. This helps operators manage the entire network consistently and holistically, regardless of the underlying network technology.

Enterprises, carriers, and service providers are being surrounded by a number of competing forces. The monumental growth in multimedia content, the explosion of cloud computing, the impact of increasing mobile usage, and continuing business pressures to reduce costs while revenues remain flat are all converging to wreak havoc on traditional business models.

To keep pace, many of these players are turning to SDN technology to revolutionize network design and operations.

SDN enables the programming of network behavior in a centrally controlled manner through software applications using open APIs. By opening up traditionally closed network platforms and implementing a common SDN control layer, operators can manage the entire network and its devices consistently, regardless of the complexity of the underlying network technology.

SDWAN 300-415 (CCNP EI Concentration Paper)

CISCO ACI 300-620 DCACI (CCNP DC Core Paper)

CISCO NEXUS will be focused on CCNP DC paper

CCNP SDWAN 300-415 ENSDWI = $300 USD
CCNP ACI 300-620 DACACI = $300 USD
CCNP DC CORE = $400 USD
CCNP EI CORE = $400 USD

Student requested to book Official Exam directly on Cisco Pearson VUE account.

We only provide Necessary Training required to clear your Official exam at First attempt without wasting your hard-earned money.

Our Training will help you clear your exam at first attempt, prepare you well for Job Interview, New Job Hunt and make you better Engineer.

Networkjourney.com offers Multiple Free Re-takes of Live batch are available and also if incase you don’t want to go through entire batch you can sit only on missed classes.

Alternatively, we also provide Recordings of every class in our Webportal for lifetime access

  • Datacenter
  • NOC Datacenter Engineers
  • L1, L2, L3, L4 Datacenter
  • Network Datacenter Engineers
  • CCNA, CCNP, CCIE Certified DC Engineers
  • Network DC administrators
  • Network DC administrators
  • Network Datacenter
  • Network DC engineers
  • Network DC analyst
  • Network Datacenter consultants
  • Basic knowledge of networking
  • TCP/IP protocol knowledge

Total 25-35 Hrs of Content for each module

CISCO SDWAN = 30 Hrs
CISCO ACI = 30 Hrs
CISCO NEXUS = 25-30 Hrs

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Student opts either Online LIVE Instructor-Led or Self-paced Learning with Labs

Online LIVE Instructor-Led: YTBA

Self-paced Learning: YTBA

Live Online Classes:
Live online classes are synchronous events organized in a live virtual meeting room where students and teachers meet together to communicate with voice, video, whiteboard.

Benefits of Live Online Classes:

  • Rapid acquisition of knowledge.
  • Immediate feedback.
  • Live online classes require students and instructors to be online at the same time.
  • Meetings and lectures occur at the same hour.
  • All attendees must be online and connected to the internet at that specific hour.
  • Ideal for content that changes regularly: If you have core content that needs to be updated regularly, then opting for live online learning may be the best choice.

Self-paced Learning:
Online courses are delivered asynchronously where students learn on their own schedule (self-paced learning) without any real time instructor. The course content – lessons, prerecorded video lectures and tutorials, tests and quizzes, homework and assignments can be access by the students enrolled in the course at any time, as long as the course is active and available.

Benefits of Self-paced Learning:

  • Learners are able to go at their own pace.
  • There is no scheduling involved.
  • No direct mentor or tutor to clarify or analyze mistakes, no solution checks.
  • Ideal for permanent content: If you happen to have content or information that isn’t going to change in the near future, such as company policies, that new employees must memorize, then self-paced learning is a great option.

Trainer Profile

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Mr. Shank

3 x CCIE (RS,DC,SP)

7500+ HOURS OF TRAINING DELIVERED IN LAST 7 YEARS | Expert in SDWAN, ACI, SDACCESS, MPLS, BGP
COURSE SUMMARY
Course Name:Cisco ACI [300-620] DCACI + Cisco NEXUS 9k, 7k, 5k, 2k + Cisco SD-WAN [300-415] ENSDWI
Timings:Please scroll top to see Date & Time accordingly
Schedule:Please scroll top to see Date & Time accordingly
Mode Of Training:Both LIVE, Self-paced Available, refer FAQs​
Material:Classnotes, Workbook, PDF provided​
Lab Access:300 Hrs Lab Access provided​ with each course track
Offline Lab:Downloadable Files provided, however, Student to Install themselves​
Emulators:GNS3, EVENG PRO, EVENG COMM, PNET all supported​
Recordings:Lifetime access to Recordings​
Free Classes:2 Free Demo, Register here
Course Level:Intermediate​, Advance
How to Join Live Meeting:We provide Zoom Meeting Invite before the Class​
How to Watch Recordings:Access on Laptop, Mobile and TV​
Certificate of completion:Yes, provided after Course completion​
Have a Query? Send it to us.

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SDN, SDWAN, SDACCESS, CISCO ACI, CISCO NEXUS, NEXUS 9k 7k 5k 2k, VPC, VDC, CONTROLLERS, SDN ONLINE TRAINING, SOFTWARE-DEFINED, SDN TECHNOLOGY INSTRUCTOR-LED TRAINNIG