Corso Cisco DNAIE Digital Network Architecture Implementation Essentials
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OBIETTIVI DEL CORSO
OBIETTIVI DEL CORSODigital Network Architecture (DNA) di Cisco è un’architettura software che consente l’automazione, la virtualizzazione delle funzioni, l’analisi e la sicurezza delle operazioni di rete aziendali. Il training DNA Implementation Essentials (DNAIE) fornisce agli studenti una comprensione operativa delle capacità della soluzione di DNA utilizzando un modello di apprendimento incentrato sul laboratorio. Questa formazione continuerà ad evolversi man mano che nuove funzionalità verranno rilasciate e aggiunte alla soluzione DNA. Il corso si focalizza sull’implementazione dei seguenti componenti della soluzione del DNA:
Automazione con Cisco APIC-EM e le sue applicazioni integrate come Plug and Play, EasyQoS, IWAN e Path Trace; Virtualizzazione nella rete di filiali aziendali tramite Cisco Enterprise Network Function Virtualization (NFV) Soluzione; Analisi tramite cloud Cisco Connected Mobile Experiences (CMX). Protezione tramite Cisco Stealth Watch, Cisco TrustSec e Cisco Identity Services Engine (ISE); Enterprise Network Fabric; Automazione utilizzando Cisco APIC EM e virtualizzazione tramite Cisco NFV.
CONTENUTI DEL CORSO
CONTENUTI DEL CORSODigital Network Architecture Implementation Essentials (DNAIE)
- Identifying the Cisco Digital Network Architecture Vision
- The New Network
- Cisco DNA Strategy
- Identifying Cisco Digital Network Architecture Solution Components
- Cisco DNA Overview
- Network Virtualization
- Network Automation
- Network Analytics
- Network Cloud Services
- Custom Network Programmability
- Identifying the Role of Automation and Orchestration Controllers in Cisco DNA
- Role of the Automation Controller
- Automation Controller Overview
- Implementing Automation in Enterprise Networks
- Need for Automation in Enterprise Networks
- Cisco APIC-EM Features
- Cisco APIC-EM Architecture
- Cisco APIC-EM Deployment Considerations
- Navigate Cisco APIC-EM GUI—Network, Device, and Topology Discovery Using APIC-EM
- Implementing the Cisco Network Plug and Play Solution
- Cisco Network Plug and Play Solution Elements
- Cisco Network Plug and Play Discovery Options
- Configuration and Image Upload
- Unclaimed Device Workflow
- Bulk Import Projects and Devices
- Implement the Cisco Network Plug and Play Solution Using Cisco APIC-EM
- Mobile Application Installer Workflow
- Security Workflow for PnP
- Implementing the Cisco EasyQoS Solution
- Need for the Cisco EasyQoS Solution
- Cisco EasyQoS Solution Overview
- Cisco QoS Toolset
- Cisco EasyQoS Workflow
- Cisco EasyQoS Policy Elements
- Implement Cisco EasyQoS Using the Cisco APIC-EM GUI
- Dynamic Cisco EasyQoS
- Implementing Cisco Intelligent WAN Solution
- Need for the Cisco Intelligent WAN Application
- Internet as an Extension of Enterprise WAN
- Cisco Intelligent WAN Solution
- Cisco Intelligent WAN Deployment Models
- Cisco Intelligent WAN Design and Technology
- Cisco IWAN Application Features and Benefits
- Perform Site Provisioning and Monitoring Using the Cisco IWAN Application
- Troubleshooting Using Path Trace Application
- Why Use Path Trace Application?
- Cisco APIC-EM Path Trace Workflow
- Troubleshoot Using the Cisco APIC-EM Path Trace Application
- Implementing Cisco Enterprise Network Functions Virtualization
- Role of Cisco Enterprise NFV in Cisco DNA
- Building Blocks of Cisco Enterprise NFV
- Cisco Enterprise NFV Solution Components
- Cisco Series ENCS Deep Dive
- OAM System: Create Day-Zero Services
- NFVIS Deep Dive
- OAM System: Cisco ESA Workflow
- Perform Site Provisioning with NFVIS on Cisco UCS CUsing OAM Servers
- Cisco Enterprise NFV Deployment Options
- Cisco ENCS Single WAN IP Deployment Scenarios
- Implementing Network Programmability in a DNA Architecture
- Programmability Overview
- Automation Tools
- Ansible Overview
- Programmability Interface Capabilities
- Understanding Programming Interfaces and Data Models
- YANG Data Model Structure
- NETCONF Overview
- What Is Network Analytics in Cisco DNA?
- Network Analytics Definition
- New Insights and Outcomes with Network Analytics
- Network Analytics as a Cisco DNA Tenant
- Cisco DNA Analytics Architecture
- DNA Analytics Proof Points
- Cisco Network Data Platform Architecture
- Cisco CMX On Premises
- Cisco DNA Analytics Architecture
- Cisco DNA Analytics Architecture—Data Sources
- Cisco DNA Analytics Architecture—Instrumentation
- Cisco DNA Analytics Architecture—Telemetry
- Cisco DNA Analytics Architecture—Today
- DNA Analytics Proof Points
- Network as a Sensor
- Network as an Enforcer
- Cisco Prime Infrastructure .—Network Health
- Cisco Prime Infrastructure .—Network Health: Site
- Cisco Prime Infrastructure .—Network Health: Floor
- Cisco Prime Infrastructure .—Network Health: APs on a Floor
- Cisco Prime Infrastructure .—Network Health: AP Details
- Cisco Prime Infrastructure .—Network Health: Services
- Cisco Prime Infrastructure .—Network Health: Site View
- Cisco Prime Infrastructure .—Network Health: Device View
- Cisco Prime Infrastructure .—Network Health: AP View
- Cisco Prime Infrastructure .—Network Health: Client View
- Analytics Moved to the Cloud
- Cisco Connected Analytics for Network Deployment
- Cisco CAND—SaaS Network Analytics: Increase Consistency, and Reduce Disruptions
- Cisco CMX Cloud—Customer Insights and Engagement
- Cisco CMX Presence Analytics: Insight to Your Business
- Cisco CMX Presence Analytics
- Cisco Network Data Platform Architecture
- Cisco DNA Analytics Architecture—Today
- Cisco DNA Analytics Architecture—Analytics Engine: Network Data Platform
- Cisco DNA Analytics Architecture—Assurance: Data Visualization
- Cisco DNA Analytics Architecture—Comparison of Data
- Cisco DNA Analytics Architecture—Assurance: Remediation
- Cisco DNA Analytics Architecture—Assurance and Remedy Application: Strategic Policy Analysis
- Cisco DNA Analytics Architecture—Assurance and Remedy Application: Strategic Policy Recommendations
- Cisco DNA Analytics Architecture—Evolution
- Gain Insights and Innovate with Cisco CMX
- Gain Business Insights Through Analytics
- Different Levels of Accuracy
- Location Data Measurements
- Best Practice: Surveying Location-Based Services
- Wi-Fi Location with FastLocate
- How Location Is Calculated with FastLocate
- Cisco Hyperlocation Technology and Solution
- Wi-Fi Location with Cisco Hyperlocation
- Performance
- Context-Aware Service Architecture
- Context-Aware Service Software Requirements
- Context-Aware Service Hardware and Data Flows
- Cisco Prime Infrastructure: AP Map Placement
- AP Positioning Default: Ceiling Mount
- Hyperlocation: AIR-ANT-LOC
- Cisco CMX Connect
- Cisco CMX Connect: Product Brief
- Cisco CMX Connect: Scalability and Product Specifications
- Use Case: Guest Registration Experience
- Cisco CMX Analytics
- Cisco CMX Analytics Offerings
- Location Update Rates
- Presence Update Rates
- Indoor and Outdoor Site with Presence
- Best Practice: Prerequisite Multifloor Location-Based Services
- Recommendations for Location-Based Services
- How Presence Works in Detail
- How Presence Works with an Unassociated Client
- How Presence Works with an Associated Client
- Cisco CMX API
- What If You Could …
- What the API Returns
- Cisco CMX Data Sources and Uses
- Cisco CMX Configuration
- Configure Switch and WLC for Cisco CMX
- Add Maps to Cisco Prime Infrastructure
- Continue to Add Maps to Cisco Prime Infrastructure
- Add the AP Placement and Orientation
- Export Maps from Cisco Prime Infrastructure
- Perform the Initial Configuration of Cisco CMX
- Use the System Settings Menu to Configure Cisco CMX
- Add Outline of Walls to Cisco CMX Floor Plan Maps
- Use Detect and Locate
- Continue to Customize Detect and Locate in Cisco CMX
- Work with Analytics in Cisco CMX
- Work with Customized Reports in the Analytics Service
- Continue to Add Widgets to a Customized Report
- Cisco CMX Cloud
- Gain Insights and Innovate with Cisco CMX Cloud
- Introducing Cisco CMX Cloud
- Connect and Engage: Offer Customized Guest Access
- Presence Analytics: Insight into Your Business
- How Cisco CMX Cloud Works: Built on Cisco Unified Access Platform
- What Is Cisco CMX Cloud Proxy?
- How Cisco CMX Cloud Works with WLC .
- Log in to the CMX Portal
- Configure an ACL in the WLC for Use with CMX Cloud
- Configure the WLAN and Security in the WLC to Support CMX Cloud
- Create a Presence Site in CMX Cloud
- Create the Initial Portal in Connect and Engage
- Add and Delete an Element and Add a Background Image to the Portal Template
- Customize Text and Registration Elements in the Portal Template
- Explore the Background Image, Themes, and Languages in the Portal Template
- Connect a Client to the Wi-Fi Network
- Work with Presence Analytics and Connect and Engage
- Use the Manage Function in CMX Cloud
- Integrate Meraki with CMX Cloud
- Configure Northbound Notifications
- Pervasive Security
- Attack Continuum
- Building Security into the Network
- What Is NetFlow?
- Configuring Flexible NetFlow on Cisco Devices
- Cisco (Lancope) Stealthwatch System
- Stealthwatch Components
- Cisco Stealthwatch Management Center
- Host Groups in the SMC
- Verify NetFlow Data Collection
- Cisco ISE Overview
- Cisco TrustSec Architecture
- How TrustSec Works
- Understanding SGTs and SGACLs
- Integrating Security Tools
- Cisco Stealthwatch and ISE Integration
- Using ISE SGT in Cisco Stealthwatch
- Integrating Stealthwatch with ISE
- ISE Adaptive Network Control
- Stealthwatch with ISE ANC Quarantine Flow
- Implementing Cisco Software-Defined Access in the Campus Network
- Role of Software-Defined Access in Cisco DNA
- Need for Cisco SD-Access
- Cisco SD-Access Fabric Overview
- Cisco SD-Access Fabric Nodes
- Cisco SD-Access Fabric Constructs
- Cisco SD-Access Fabric Control Plane
- Cisco SD-Access Fabric Data Plane
- Cisco SD-Access Fabric Policy Plane
- Cisco SD-Access External Connectivity
- Cisco SD-Access Wireless
- Cisco DNA Center Key Components and Architecture
- Cisco DNA Center Design Application
- Cisco DNA Center Policy Application
- Cisco DNA Center Provisioning Application
- Cisco DNA Center Assurance
- Cisco SD-Access Platform Support
Attività Laboratoriali
- Introducing Cisco APIC-EM GUI- Network, Device and Topology Discovery Using APIC-EM
- Implementing Cisco Network Plug and Play Solution Using Cisco APIC-EM
- Implementing EasyQoS Using Cisco APIC-EM GUI
- Site Provisioning and Monitoring Using Cisco IWAN Application
- Troubleshooting Using Cisco APIC-EM Path Trace Applications
- Site Provisioning with NFVIS on Cisco UCS C220 M3 Server Using OAM Servers
- Initial Switch and WLC Configuration for Cisco CMX
- Adding Maps to Cisco Prime Infrastructure
- Continuing to Add Maps to Cisco Prime Infrastructure
- AP Placement and Orientation
- Exporting Maps from Cisco Prime Infrastructure
- Performing the Initial Configuration of CMX
- Using the System Settings Menu to Configure Cisco CMX
- Adding Outline Wall to CMX Floor Plan Maps
- Using Detect and Connect
- Continuing to Customize Detect and Locate in CMX
- Working with Analytics in Cisco CMX
- Working with Customized Reports in the Analytics Service
- Continuing to Add Widgets to a Customized Report in CMX
- Initial Portal Creation in Connect and Engage
- Adding and Deleting an Element and Adding a Background Image to the Portal Template
- Customizing Text and Registration Elements in the Portal Template
- Exploring the Background Image, Themes, and Languages in the Portal Template
- Login to the CMX Portal
- Configuring an ACL in the WLC for Use with CMX Cloud
- Configuring the WLAN and Security in the WLC to Support CMX Cloud
- Create a Presence Site in CMX Cloud
- Connecting a Client to the Wi-Fi Network
- Working with Presence Analytics and Connect and Engage
- Using the Manage Function in CMX Cloud
- Meraki Integration with CMX Cloud
TIPOLOGIA DEL CORSO
TIPOLOGIA DEL CORSOLezioni frontali Presenza in Aula e Laboratorio;
Lezioni a distanza in Video Presenza Tempo Reale e Laboratorio;
INFRASTRUTTURA LABORATORIALE
INFRASTRUTTURA LABORATORIALEPer tutte le tipologie di erogazione, il Corsista può accedere alle attrezzature e ai sistemi reali Cisco presenti nei Nostri laboratori o direttamente presso i data center Cisco in modalità remota h24. Ogni partecipante dispone di un accesso per implementare le varie configurazioni avendo così un riscontro pratico e immediato della teoria affrontata.
Ecco di seguito alcune topologie di rete dei Laboratori Cisco Disponibili:
PREREQUISITI
PREREQUISITISi consiglia la partecipazione al Corso Cisco CCNA.
DURATA E FREQUENZA
Durata 5gg – Varie tipologie di Frequenza Estensiva ed Intensiva.
DOCENTI
DOCENTII docenti sono Istruttori Ufficiali pluri certificati Cisco e in altre tecnologie IT, con anni di esperienza pratica nel settore e nella Formazione.
MODALITÀ DI ISCRIZIONE
MODALITÀ DI ISCRIZIONEL’iscrizione avviene contattando la sede.
Le iscrizioni sono rivolte ad un massimo di 12 partecipanti. Si ricorda inoltre che il costo del corso non comprende gli esami di certificazione che il corsista può sostenere alla fine del percorso formativo presso i nostri centri
CALENDARIO
CALENDARIOCorso Cisco DNAIE – Ottobre 2020 – 09:00/18:00 (formula Full-Time)
Posti Rimanenti: _/12
Elenco Corsi Cisco per Certificazione
