Description
CCIE Service Provider v5.1 Real Lab Bootcamp
Welcome to our website, This site offers you the opportunity to learn more about New CCIE Service Provider v5.1 and get your self prepared for Cisco exam. We are the reputed and trusted institute for CCIE Service Provider v5.1 Real Lab Bootcamp and Training, Online and Offline (Classroom Training). The Cisco Certified Internetwork Expert (CCIE) certification is accepted worldwide as the most prestigious networking certification in the industry. Network Engineers holding an active Cisco CCIE certification are recognized for their expert network engineering skills and mastery of Cisco products and solutions. Iproute has established a reputation of leading the networking industry in deep technical networking knowledge and are deployed into the most technically challenging network assignments. Join us to Pass CCIE Service Provider v5.1 Exam in One Shot and get your self recognized worldwide.
Pass New CCIE Service Provider v5.1 Real Lab Exam
One of the most difficult requirement needed to achieve CCIE certification is to pass a grueling hands on lab examination administered by Cisco. The specific format of the CCIE Service Provider v5.1 Real Lab is currently not the same across all tracks, but in general the entire time of the lab exam is 8 hours. The CCIE lab requires a candidate to configure and troubleshoot a series of complex networks to given specifications in this limited amount of time. Point values are given for each task. The CCIE lab exam is graded by trained proctors who ensure the entire criterion are met and points are awarded accordingly. The CCIE lab has traditionally only been available to take at a handful of Cisco lab locations worldwide, recently, there have been efforts made by Cisco to expand the availability of the lab in some tracks by introducing both a mobile lab which moves periodically to different cities around the world. We Ip route hold the ranking worldwide in making preparation of New CCIE Service Provider v5.1 Real Lab Exam with guaranteed passing in one shot.
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
