Corso CCNP Service Provider SPRI – Implementing Cisco Service Provider Advanced Routing Solutions
PANORAMICA
Corso di preparazione al conseguimento della
Certificazione Cisco CCNP Service Provider SPRI
Esame 300-510 Parte della Certificazione Cisco CCNP Service Provider
Implementing Cisco Service Provider Advanced Routing Solutions (SPRI)
Contattaci ora per ricevere tutti i dettagli e per richiedere, senza alcun impegno, di parlare direttamente con uno dei nostri docenti CISCO 
CLICCA QUI.
Oppure chiamaci subito al nostro numero verde 
800-177596.
OBIETTIVI DEL CORSO
Il corso Implementing Cisco Service Provider Advanced Routing Solutions (SPRI) è parte del percorso tecnologico e di certificazione CCNP Service Provider. Questo modulo si focalizza sulla tematiche di routing avanzate affrontando le seguenti tematiche: OSPF Multiarea, IS-IS Multilevel, Routing Policy Language, Route Redistribution, BGP Route Selection, MPLS Traffic Engineering, Segment Routing, IPv6 Tunneling Mechanisms, Multicast, PIM-SM, Rendezvous Point Distribution e altro ancora.
CONTENUTI DEL CORSO
Implementing Cisco Service Provider Advanced Routing Solutions (SPRI)
- Implementing and Verifying OSPF Multiarea Networks
- Multiarea OSPF Overview
- OSPF Area and LSA Types
- OSPFv Path Selection
- OSPFv Summarization
- OSPF Special Area Types
- OSPFv Virtual Links
- OSPF Fast Convergence
- OSPF for IPv
- Implement OSPF Special Area Types (IPv and IPv)
- Implementing and Verifying IS-IS Multilevel Networks
- IS-IS Interlevel Routing
- IS-IS Path Selection
- IS-IS Summarization
- IS-IS Fast Convergence
- IS-IS for IPv
- IS-IS vs. OSPF Comparison
- Implement Multiarea IS-IS
- Introducing Routing Protocol Tools, Route Maps, and Routing Policy Language
- Routing Protocol Tools
- Routing Protocols Filtering Examples and Objectives
- Prefix Lists
- AS Path-Based Filtering
- Route Maps
- Routing Policy Language
- RPL Attributes and Parameters
- Value Sets
- Routing Policies Application, Maintenance, Monitoring, and Testing
- Route Maps to Routing Policies Translation
- Implementing Route Redistribution
- Route Redistribution Overview
- Route Redistribution Seed Metrics
- Redistribution Implementation Considerations
- Redistribution Implementation
- Administrative Distance
- Routing Loops Redistribution Prevention
- Implement Route Redistribution
- Influencing BGP Route Selection
- BGP Weight
- BGP Local Preference
- AS Path Prepending
- BGP Multi-Exit Discriminators
- BGP Communities
- Multihomed Customer Connectivity to Service Providers
- Influence BGP Route Selection
- Scaling BGP in Service Provider Networks
- BGP Route Reflectors and BGP Confederations Overview
- BGP Split-Horizon Rule and Other Loop-Prevention Mechanisms
- BGP Route Reflectors
- BGP Confederations
- Implement BGP Route Reflectors
- Securing BGP in a Service Provider Network
- Service Provider Environment Threats
- BGP Countermeasures
- BGP Route Limiting
- BGP Neighbor Authentication, TTL Security, and CoPP Configuration
- Remote-Triggered Black-Hole Filtering
- Implement BGP Security Options
- Improving BGP Convergence and Implementing Advanced Operations
- BGP Route Flap Dampening
- BGP Convergence
- Distributed BGP and Path MTU Discovery
- Cisco Nonstop Routing and Forwarding
- BGP Dynamic Neighbors
- Troubleshooting Routing Protocols
- Methodologies and Tools for Troubleshooting
- Troubleshooting OSPF
- Troubleshooting IS-IS
- Troubleshooting BGP
- Troubleshoot Routing Protocols
- Implementing and Verifying MPLS
- MPLS Forwarding Structures
- MPLS Forwarding Operations
- MPLS Implementation
- LDP Configuration and Customization
- MPLS Monitoring and Verification
- MPLS Troubleshooting
- Unified MPLS Implementation
- Implement MPLS in the Service Provider Core
- Implementing Cisco MPLS Traffic Engineering
- Cisco MPLS TE Label Exchange and Packet Forwarding Concepts
- Cisco MPLS TE Attributes
- Cisco MPLS TE Path Setup, Computation, and Optimization
- Cisco MPLS TE Configuration
- Cisco MPLS TE Verification and Troubleshooting
- Cisco MPLS TE Case Studies
- Cisco MPLS TE Redundancy Mechanisms
- Implement Cisco MPLS TE
- Implementing Segment Routing
- Routing Protocol Extensions for Segment Routing
- Segment Routing Labels
- Segment Routing IS-IS Configuration and Verification
- Segment Routing OSPF Configuration and Verification
- Segment Routing BGP Configuration and Verification
- Segment Routing and LDP Interworking Concepts
- Segment Routing Mapping Server Function and Configuration
- TI-LFA for SR Traffic Implementation and Verification
- SR TI-LFA for LDP Traffic Implementation and Verification
- TI-LFA and SR LDP Interworking
- Segment Routing v Overview
- Configure and Verify IGP Segment Routing
- Describing Segment Routing Traffic Engineering (SR TE)
- Segment Routing TE Concepts, Components, and Comparison with RSVP TE
- Segment Routing Policy Concept, Constraints, Metrics, and Attributes
- Segment Routing TE Traffic Steering
- Segment Routing PCE-Based Paths
- Deploying IPv Tunneling Mechanisms
- IPv Tunneling Mechanisms
- GRE Tunnels
- in Tunnels
- to Automatic Tunnels
- IPv in MPLS Environments
- Implement Tunnels for IPv
- Implementing IP Multicast Concepts and Technologies
- Multicast Distribution Tree
- IGMP
- ASM vs. SSM Comparison
- Intradomain and Interdomain Multicast Routing Protocols
- Multicast IP Layer to Layer Mapping
- Multipoint LDP Overview
- Implementing PIM-SM Protocol
- PIM-SM Overview
- PIM-SM Packets and State
- PIM-SM Receiver Joining a Shared Tree
- PIM-SM Source Registration
- PIM-SM SPT Switchover Process
- PIM-SM Shared Tree Pruning Overview
- PIM-SM Enablement and Verification
- Enable and Optimize PIM-SM
- Implementing PIM-SM Enhancements
- Source-Specific Multicast
- Bidirectional PIM
- Designated Forwarder
- Implement PIM-SM Enhancements
- Implementing Interdomain IP Multicast
- Multicast Service Provider Requirements
- SSM Interdomain: Protocols and Implementation
- ASM Interdomain: Protocols and Implementation
- Implementing Distributed Rendezvous Point Solution in Multicast Network
- Static vs. Dynamic Discovery and RP Placement
- Auto-RP
- PIMv Bootstrap Router
- Anycast RP
- Implement Rendezvous Point Distribution
Attività Laboratoriali
- Implement OSPF Special Area Types (IPv4 and IPv6)
- Implement Multiarea IS-IS
- Implement Route Redistribution
- Influence BGP Route Selection
- Implement BGP Route Reflectors
- Implement BGP Security Options
- Troubleshoot Routing Protocols
- Implement MPLS in the Service Provider Core
- Implement Cisco MPLS TE
- Configure and Verify Interior Gateway Protocol (IGP) Segment Routing
- Implement Tunnels for IPv6
- Enable and Optimize PIM-SM
- Implement PIM-SM Enhancements
- Implement Rendezvous Point Distribution
TIPOLOGIA DEL CORSO
Lezioni frontali Presenza in Aula e Laboratorio;
Lezioni a distanza in Video Presenza Tempo Reale e Laboratorio;
INFRASTRUTTURA LABORATORIALE
Per 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
Si consiglia la partecipazione al Corso Cisco CCNA.
DURATA E FREQUENZA
Durata 5gg – Varie tipologie di Frequenza Estensiva ed Intensiva.
DOCENTI
I 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
Le iscrizioni sono a numero chiuso per garantire ai tutti i partecipanti un servizio eccellente.
L’iscrizione avviene richiedendo di essere contattati dal seguente Link, o contattando la sede al numero verde 800-177596 o inviando una richiesta all’email [email protected].
CALENDARIO
Corso Cisco SPRI – Giugno 2021 – 09:00/18:00 (formula Full-Time)
Posti Rimanenti: _/12
Elenco Corsi Cisco per Certificazione
