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“Mastering Advanced Routing Protocols and MPLS for Service Providers”

What you will learn

Service Provider Routing Protocols

MPLS (Multiprotocol Label Switching)

IPv6 Routing

Network Security

Why take this course?

The 300-510: Implementing Cisco Service Provider Advanced Routing Solutions course is designed for IT professionals seeking to advance their expertise in the implementation and management of sophisticated routing solutions within service provider networks. This course covers a range of advanced topics essential for optimizing and troubleshooting routing protocols and technologies in large-scale network environments.

Course Objectives:

  1. Advanced Routing Protocols:
    • BGP (Border Gateway Protocol): Gain in-depth knowledge of BGP configuration and optimization. Learn to manage BGP attributes, implement route redistribution, and use route reflectors effectively to enhance routing efficiency.
    • OSPF (Open Shortest Path First): Master advanced OSPF features including OSPFv3, and OSPF Area Design. Understand techniques for scaling and optimizing OSPF deployments.
    • IS-IS (Intermediate System to Intermediate System): Acquire skills in configuring and optimizing IS-IS, including level 1 and level 2 routing, and integrating IS-IS with other routing protocols for a cohesive routing strategy.
  2. MPLS (Multiprotocol Label Switching):
    • MPLS Fundamentals: Explore MPLS architecture, including label switching and Label Distribution Protocol (LDP). Learn about the MPLS forwarding plane and its role in service provider networks.
    • MPLS VPNs: Understand the configuration and management of MPLS VPNs, including Layer 3 VPNs (L3VPNs) and Layer 2 VPNs (L2VPNs). Study MPLS technologies such as VPLS (Virtual Private LAN Service) and VPWS (Virtual Private Wire Service) for enhanced network flexibility.
    • MPLS Traffic Engineering: Learn advanced MPLS traffic engineering techniques, including Constraint-Based Routing (CBR), Resource Reservation Protocol (RSVP), and Traffic Engineering Label Switching (TE-LSP) to optimize network performance and resource utilization.
  3. IPv6 Routing:
    • IPv6 Addressing and Subnetting: Delve into IPv6 fundamentals, including addressing, subnetting, and address planning strategies.
    • IPv6 Routing Protocols: Configure and manage IPv6 routing protocols such as OSPFv3 and BGP for IPv6. Understand best practices for IPv6 routing and network optimization.
    • IPv6 Transition Mechanisms: Explore transition mechanisms for IPv4 to IPv6 migration, including dual-stack configurations, tunneling, and translation techniques to ensure a smooth transition to IPv6.
  4. Network Security:
    • Routing Protocol Security: Implement security measures for routing protocols, including authentication and encryption. Learn to secure BGP, OSPF, and IS-IS to protect against potential threats.
    • Service Provider Security Policies: Understand and apply security policies and best practices for service provider networks. Learn about access control, network segmentation, and threat mitigation strategies.
    • DDoS Protection: Explore techniques for mitigating Distributed Denial of Service (DDoS) attacks, including traffic filtering, rate limiting, and anomaly detection to safeguard network integrity.
  5. Quality of Service (QoS):
    • QoS Fundamentals: Learn the principles of QoS, including traffic classification, marking, and queuing. Understand how to implement QoS policies to prioritize critical network traffic.
    • QoS in MPLS Networks: Explore QoS implementation within MPLS environments, including MPLS QoS models and traffic engineering to ensure optimal network performance.
    • Advanced QoS Techniques: Study advanced QoS techniques such as Congestion Management, Congestion Avoidance, and Traffic Shaping to effectively manage network resources and maintain service quality.
  6. Network Management and Troubleshooting:
    • Network Management Tools: Learn to use network management systems (NMS) and performance monitoring tools to manage service provider networks effectively.
    • Troubleshooting Methodologies: Develop systematic approaches to troubleshoot network issues, including fault isolation, root cause analysis, and problem resolution techniques.
    • Case Studies: Apply troubleshooting skills through real-world scenarios to develop effective solutions and enhance your problem-solving capabilities.

Target Audience:

This course is intended for network engineers, systems administrators, and IT professionals working with service provider networks. It is ideal for those who want to deepen their knowledge and skills in advanced routing solutions and service provider operations.


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Prerequisites:

A solid understanding of basic networking concepts and experience with Cisco networking technologies are recommended. Familiarity with Cisco’s CCNA and CCNP certifications or equivalent knowledge will be beneficial.

Certification Path:

Successful completion of the 300-510 exam earns the Cisco CCNP Service Provider certification, validating your expertise in advanced routing solutions and service provider networks. This certification is essential for career advancement in network engineering roles focused on service provider environments.

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