Description
Complete Study Guide Cisco CCIE Service Provider v5.1 Training Mumbai India
For professionals aspiring to excel in the field of service provider technologies, the Cisco CCIE Service Provider v5.1 certification is a key milestone. At IP Route, we offer comprehensive Cisco CCIE Service Provider v5.1 training in Mumbai, designed to provide in-depth knowledge and hands-on experience with advanced networking technologies. Our training is tailored to help you master the key concepts needed to pass the certification exam and advance your career.
Our program combines theoretical knowledge with real-world lab scenarios, offering a well-rounded learning experience that equips you with the practical skills required in the industry. Whether you are preparing for the exam or enhancing your expertise in service provider networks, IP Route’s training ensures success through expert-led sessions and extensive study materials.
Benefits of Choosing Cisco CCIE Service Provider v5.1 Training Mumbai India
Gain Expertise in Service Provider Technologies with Real Lab Scenarios
Our training program focuses on hands-on practice, allowing you to work with real-world lab environments and gain practical experience in configuring, troubleshooting, and optimizing service provider networks. This approach ensures that you are well-prepared for both the exam and real-world applications.
Comprehensive Curriculum Based on the Cisco CCIE Service Provider v5.1 Blueprint
The curriculum is carefully aligned with the Cisco CCIE Service Provider v5.1 exam blueprint, covering all key topics such as network infrastructure, security, routing protocols, and automation. You’ll be fully equipped to handle all aspects of the certification exam.
Expert Guidance from Certified Instructors
Our instructors are certified professionals with extensive experience in service provider technologies. They will provide expert guidance and support throughout your training, ensuring that you fully understand complex concepts and are ready to take on the challenges of the CCIE Service Provider v5.1 exam.
Flexible Learning Options to Fit Your Schedule
We offer a range of flexible learning options, including on-site, remote, and hybrid training models, so you can choose the one that best fits your schedule and learning preferences. Whether you’re in Mumbai or elsewhere, our training is accessible and tailored to your needs.
Tailored for Success in Mumbai’s Competitive IT Market
Our training is designed with the local market in mind, helping you apply your knowledge to real-world challenges that service providers in Mumbai and India face. This localized focus ensures that you’re not only prepared for the exam but also for the demands of the industry.
FAQs
1. What is Cisco CCIE Service Provider v5.1 Training?
It is an advanced training program that helps professionals prepare for the Cisco CCIE Service Provider v5.1 certification exam. The training covers topics such as network infrastructure, routing protocols, and automation.
2. Who can enroll in this training?
The training is suitable for networking professionals with experience in service provider environments. However, beginners with a strong foundational knowledge of networking can also enroll.
3. Can I attend the training remotely?
Yes, we offer flexible remote training options, allowing you to join the course from anywhere. Our training is available both on-site in Mumbai and remotely.
4. What topics are included in the training?
The training covers network infrastructure, service provider architecture, automation, routing, MPLS, and more. All content is aligned with the CCIE Service Provider v5.1 exam blueprint.
5. Do you provide access to study materials and labs?
Yes, we offer comprehensive study materials, real lab environments, and expert support to help you succeed in your certification journey.
The following topics are general guidelines for the content likely to be included on the exam. Your knowledge, skills and abilities on these topics will be tested throughout the entire network lifecycle, unless explicitly specified otherwise within this document.
- 1.1 Interior Gateway Protocol
- 1.1.a IS-IS
- 1.1.b OSPFv2 and OSPFv3
- 1.1.c Optimize IGP scale and performance
- 1.2 Border Gateway Protocol
- 1.2.a IBGP, EBGP, and MP-BGP
- 1.2.b BGP route policy enforcement
- 1.2.c BGP path attribute
- 1.2.d BGP scale and performance
- 1.2.e BGP labeled unicast and linked state
- 1.3 Multicast
- 1.3.a Design PIM (PIM-SM, PIM-SSM, and BIDIR-PIM)
- 1.3.b Design RP (Auto-RP, BSR, static, anycast RP, and MSDP)
- 1.3.c Design IGMP and MLD
- 1.3.d MLDP
- 1.3.e Tree-SID
- 1.4 Multiprotocol Label Switching
- 1.4.a MPLS forwarding and control plane mechanisms
- 1.4.b LDP 1.4.c LDP scale and performance
- 1.5 MPLS traffic engineering
- 1.5.a IS-IS and OSPF extensions
- 1.5.b RSVP-TE
- 1.5.c MPLS TE policy enforcement
- 1.5.d MPLS LSP attributes
- 1.5.e Optimize MPLS TE scale and performance
- 1.6 Segment routing
- 1.6.a IS-IS segment rouging control plane for IPv4 and IPv6
- 1.6.b OSPFv2 and OSPRv3 segment routing control plane
- 1.6.c BGP SR
- 1.6.d SR (SRGB and max label depth)
- 1.6.e SR-TE
- 1.6.f LDP and SR interworking, segment routing mapping server
- 1.6.g PCE and PCEP technology
- 1.6.h Flexible algorithm
- 1.6.i SRv6 locator
- 1.6.j SRv6 micro-segment (uSID)
- 1.6.k SRv6 encapsulation functions
- 1.6.l SRv6 interworking gateway
- 2.1 Mobile infrastructure architecture
- 2.1.a Design 5G vRAN and ORAN transport
- 2.1.b Design 5G converged packet transport architecture
- 2.1.c Design clocking and synchronization
- 2.1.d Design multi-access edge computing (MEC)
- 2.1.e Design transport network slicing
- 2.1.f Design telco hybrid and multi-cloud
- 2.2 Optical architecture
- 2.2.a Design routed optical network (RON)
- 2.3 Large-scale MPLS architecture
- 2.3.a Unified MPLS
- 2.3.b Multi-domain segment routing with SR-PCE
- 2.3.c SLA based on IGP/TE metrics and disjoint paths
- 2.4 Carrier Ethernet
- 2.4.a E-Line, E-LAN, and E-TREE
- 2.4.b VPWS, VPLS, and H-VPLS
- 2.4.c EBPN (single-homed and multi-homed)
- 2.4.c.i EVPN-VPWS
- 2.4.c.ii EVPN ELAN
- 2.4.c.iii EVPN-IRB
- 2.4.d L2VPN service auto steering into segment routing policy
- 2.5 L3VPN
- 2.5.a L3VPN
- 2.5.b PE-CE routing protocols (OSPF and BGP)
- 2.5.c Loop prevention techniques in multi-homed environments
- 2.5.d Inter-AS L3VPN
- 2.5.e Shared services, for example: extranet and internet access
- 2.5.f L3VPN service auto steering into segment routing policy
- 2.6 Internet service
- 2.6.a IPv4 translation mechanism, such as: NAT44, CGNAT
- 2.6.b IPv4 translation mechanism, such as: NAT64, MAP-T
- 2.6.c Internet peering route and transit policy enforcement
- 2.7 Multicast VPN
- 2.7.a NG mVPN (profile 7, 11, 12, 13, 14, 27, 28, and 29)
- 2.8 Quality of service for core, distribution, and access
- 2.8.a Classification and marking
- 2.8.b Congestion management and scheduling
- 2.8.c Congestion avoidance
- 2.8.d MPLS QoS models (pipe, short pipe, and uniform)
- 2.8.e MPLS TE QoS (MAM, RDM and PBTS)
- 3.1 BNG connectivity
- 3.1.a Design cloud-native BNG
- 3.1.b Design control and user plan separation
- 3.2 Layer 2 connectivity
- 3.2.a IEEE 802.1ad (Q-in-Q) and ITU G.8032
- 3.2.b Spanning Tree Access Gateway (MST-AG and PVST-AG)
- 3.2.c Design and operate MC-LAG
- 4.1 High availability
- 4.1.a SSO/NSF, NSR, and GR
- 4.2 Routing/fast convergence
- 4.2.a IGP convergence
- 4.2.b LDP convergence
- 4.2.c BGP Prefix Independent Convergence (BGP-PIC)
- 4.2.d BFD
- 4.2.e LFA-FRR (LFA, remote LFA, and TI-LFA)
- 4.2.f MPLS TE FRR
- 5.1 Control plane security
- 5.1.a Control lane protection techniques (LPTS and CoPP)
- 5.1.b Routing protocol and LDP authentication and security
- 5.1.c BGP prefix-based and attribute-based filtering
- 5.1.d BGP-RPKI (origin AS validation)
- 5.2 Management plane security
- 5.2.a Implement and troubleshoot device management (MPP, SSH, and VTY)
- 5.2.b Implement and troubleshoot logging and SNMP security
- 5.2.c Implement and troubleshoot AAA
- 5.3 Infrastructure security
- 5.3.a ACL compression and object groups
- 5.3.b uRPF
- 5.3.c RTBH and router hardening
- 5.3.d BGP Flowspec
- 5.3.e TLS and mTLS certificates using gRPC and gNMI
- 5.3.f Design MACsec
- 5.1 Control plane security
- 5.1.a Control lane protection techniques (LPTS and CoPP)
- 5.1.b Routing protocol and LDP authentication and security
- 5.1.c BGP prefix-based and attribute-based filtering
- 5.1.d BGP-RPKI (origin AS validation)
- 5.2 Management plane security
- 5.2.a Implement and troubleshoot device management (MPP, SSH, and VTY)
- 5.2.b Implement and troubleshoot logging and SNMP security
- 5.2.c Implement and troubleshoot AAA
- 5.3 Infrastructure security
- 5.3.a ACL compression and object groups
- 5.3.b uRPF
- 5.3.c RTBH and router hardening
- 5.3.d BGP Flowspec
- 5.3.e TLS and mTLS certificates using gRPC and gNMI
- 5.3.f Design MACsec
Please write to us at [email protected] for the price and upcoming schedule.
- Introduction
- A (Very) Basic Introduction to Networking
- The OSI Reference Model Overview
- The TCP/IP Stack
- The Upper OSI Layers
- The Lower OSI Layers
- Introduction
- The Transport Layer Header, TCP and UDP
- Introduction
- Class A IP Addresses
- IP Address Classes B and C
- IP Address Classes D and E
- Introduction
- Local Area Network Layer 2 – Ethernet
- Introduction
- Switches vs Hubs
- Switch Operation
Routers - Other Cisco Devices
- Cisco Device Functions – Lab Exercises
- Introduction
- A (Very) Basic Introduction to Networking
- The OSI Reference Model Overview
- The TCP/IP Stack
- The Upper OSI Layers
- The Lower OSI Layers
- Introduction
- The Transport Layer Header, TCP and UDP
- Introduction
- Class A IP Addresses
- IP Address Classes B and C
- IP Address Classes D and E
- Introduction
- Local Area Network Layer 2 – Ethernet
- Introduction
- Switches vs Hubs
- Switch Operation
Routers - Other Cisco Devices
- Cisco Device Functions – Lab Exercises
