Cisco 400-201 Certification Exam Syllabus

400-201 Syllabus, CCIE Service Provider Exam Questions PDF, Cisco 400-201 Dumps Free, CCIE Service Provider PDF, 400-201 Dumps, 400-201 PDF, CCIE Service Provider VCE, 400-201 Questions PDF, Cisco CCIE Service Provider Questions PDF, Cisco 400-201 VCEA great way to start the Cisco Certified Internetwork Expert Service Provider (CCIE SP) preparation is to begin by properly appreciating the role that syllabus and study guide play in the Cisco 400-201 certification exam. This study guide is an instrument to get you on the same page with Cisco and understand the nature of the Cisco CCIE Service Provider exam.

Our team of experts has composed this Cisco 400-201 exam preparation guide to provide the overview about Cisco CCIE Service Provider Written Exam exam, study material, sample questions, practice exam and ways to interpret the exam objectives to help you assess your readiness for the Cisco CCIE SP exam by identifying prerequisite areas of knowledge. We recommend you to refer the simulation questions and practice test listed in this guide to determine what type of questions will be asked and the level of difficulty that could be tested in the Cisco CCIE Service Provider certification exam.

Cisco 400-201 Exam Overview:

Exam Name
CCIE Service Provider Written Exam
Exam Number 400-201 CCIE SP
Exam Price $450 USD
Duration 120 minutes
Number of Questions 90-110
Passing Score Variable (750-850 / 1000 Approx.)
Exam Registration PEARSON VUE
Sample Questions Cisco 400-201 Sample Questions
Practice Exam Cisco Certified Internetwork Expert Service Provider Practice Test

Cisco 400-201 Exam Topics:

Section Weight Objectives
Core Routing 25%
1. Interior Gateway Protocol
a) Describe, implement, and troubleshoot IS-IS
b) Describe, implement, and troubleshoot OSPFv2 and OSPFv3
c) Describe and optimize IGP scale and performance
 
2. Border Gateway Protocol
a) Describe, implement, and troubleshoot IBGP, EBGP, and MP-BGP
b) Describe, implement, and troubleshoot BGP route policy enforcement
c) Describe BGP path attribute
d) Describe and optimize BGP scale and performance
e) Describe, implement, and troubleshoot advanced BGP features
 
3. Multiprotocol Label Switching
a) Describe MPLS forwarding and control plane mechanisms
b) Describe, implement, and troubleshoot LDP
c) Describe and optimize LDP scale and performance
 
4. MPLS Traffic Engineering
a) Describe, implement, and troubleshoot RSVP
b) Describe, implement, and troubleshoot ISIS and OSPF extensions
c) Describe, implement, and troubleshoot MPLS TE policy enforcement
d) Describe MPLS TE attributes
e) Describe and optimize MPLS TE scale and performance
f) Describe, implement, and troubleshoot MPLS advanced features, for example: Segment Routing and MPLS-TE Inter-AS
 
5. Multicast
a) Describe, implement, and troubleshoot PIM (PIM-SM, PIM-SSM, and PIM-BIDIR)
b) Describe, implement, and troubleshoot RP (Auto-RP, BSR, Static, Anycast RP, and MSDP)
c) Describe, implement, and troubleshoot mVPN
d) Describe and optimize multicast scale and performance
 
6. Quality of Service
a) Describe, implement, and troubleshoot classification and marking
b) Describe, implement, and troubleshoot congestion management and scheduling
c) Describe, implement, and troubleshoot congestion avoidance
d) Describe, implement, and troubleshoot MPLS QoS models (Pipe, Short Pipe, and Uniform)
e) Describe, implement, and troubleshoot MPLS TE QoS (MAM, RDM, CBTS, PBTS, and DS-TE)
Service Provider Architecture and Services 21%
1. Service provider architecture concepts
a) Describe network architecture component and service provider network domains, for example: PE, P, CE, Metro Ethernet Core, Aggregation, RAN Backhaul, and eNodeB
b) Describe Cisco IOS, Cisco IOS-XE, and Cisco IOS-XR software architecture components, for example: XR Kernel, System Manager, and Interprocess communication
 
2. Virtualization concepts
a) Describe physical router virtualization, for example: SDR, Multiple-Logical-Routers, and Satellite Network Virtualization
b) Describe Network Function Virtualization architecture concepts, for example: Service Function Chaining, ESP, EPN, and NFVI
 
3. Carrier Ethernet
a) Describe, implement, and troubleshoot E-LINE, for example: VPWS
b) Describe, implement, and troubleshoot E-LAN and E-TREE, for example: VPLS and H-VPLS
c) Describe, implement, and troubleshoot EVPN
d) Describe IEEE 802.1ad (Q-in-Q), IEEE 802.1ah (Mac-in-Mac), and ITU G.8032 (REP)
 
4. L3VPN
a) Describe, implement, and troubleshoot L3VPN
b) Describe, implement, and troubleshoot Inter-AS L3VPN
c) Describe, implement, and troubleshoot multicast VPN
d) Describe, implement, and troubleshoot unified MPLS and CSC
e) Describe, implement, and troubleshoot shared services, for example: Extranet and Internet access
 
5. Overlay VPN
a) Describe, implement, and troubleshoot L2TPv3
b) Describe LISP
 
6. Internet service
a) Describe, implement, and troubleshoot IPv6 transition mechanism, for example: NAT44, NAT64, 6RD, MAP, and DS Lite
b) Describe, implement, and troubleshoot Internet peering route and transit policy enforcement
Access and Aggregation 18%
1. Transport and encapsulation technologies
a) Describe transport technologies, for example: optical, xDSL, DOCSIS, TDM, and GPON
b) Describe Ethernet technologies
c) Describe, implement, and troubleshoot link aggregation techniques
 
2. PE-CE connectivity
a) Describe, implement, and troubleshoot PE-CE routing protocols, for example: static, OSPF, RIP, RIPng, EIGRP, ISIS, and BGP
b) Describe, implement, and troubleshoot route redistribution
c) Describe, implement, and troubleshoot route filtering
d) Describe, implement, and troubleshoot loop prevention techniques in multihomed environments
e) Describe, implement, and troubleshoot Multi-VRF CE
 
3. Quality of Service
a) Describe, implement, and troubleshoot classification and marking
b) Describe, implement, and troubleshoot congestion management and scheduling, for example: policing, shaping, and queuing
c) Describe, implement, and troubleshoot congestion avoidance
 
4. Multicast
a) Describe, implement, and troubleshoot IGMP and MLD
b) Describe, implement, and troubleshoot PIM
c) Describe, implement, and troubleshoot RP
d) Describe and optimize multicast scale and performance
High Availability and Fast Convergence 14%
1. System level HA
a) Describe Multichassis/clustering HA
b) Describe, implement, and troubleshoot SS0/NSF, NSR, and GR
c) Describe, implement, and troubleshoot IGP-LDP Sync
d) Describe, implement, and troubleshoot LDP Session Protection
 
2. Layer 1/2/3 failure detection techniques
a) Describe Layer 1 failure detection
b) Describe, implement, and troubleshoot Layer 2 failure detection
c) Describe, implement, and troubleshoot Layer 3 failure detection
 
3. Routing/fast convergence
a) Describe, implement, and optimize IGP convergence
b) Describe, implement, and optimize BGP convergence
c) Describe, implement, and optimize IP FRR and MPLS TE FRR
Service Provider Security, Operation, and Management 12%
1. Control plane security
a) Describe, implement, and troubleshoot control plane protection techniques, for example: LPTS and CoPP
b) Describe, implement, and troubleshoot routing protocol security, for example: BGP-TTL security and protocol authentication
c) Describe, implement, and troubleshoot BGP prefix suppression
d) Describe, implement, and troubleshoot LDP security, for example: authentication and label allocation filtering
e) Describe, implement, and troubleshoot BGP prefix based filtering
f) Describe, implement, and troubleshoot BGPsec
 
2. Management plane security
a) Describe, implement, and troubleshoot device management, for example: MPP, SSH, and VTY
b) Describe, implement, and troubleshoot logging and SNMP security
c) Describe backscatter Traceback
 
3. Infrastructure security
a.)Describe, implement, and troubleshoot uRPF
b) Describe Lawful-intercept
c) Describe, implement, and troubleshoot iACL
d) Describe, implement, and troubleshoot RTBH
e) Describe, implement, and troubleshoot BGP Flowspec
f) Describe DDoS mitigation techniques
 
4. Timing and synchronization
a) Describe timing protocol, for example: NTP, 1588v2, and SyncE
 
5. Network monitoring and troubleshooting
a) Describe, implement, and troubleshoot syslog and logging functions
b) Describe, implement, and troubleshoot SNMP traps, RMON, EEM, and EPC
c) Describe, implement, and troubleshoot NetFlow and IPFIX
d) Describe, implement, and troubleshoot IP SLA
e0 Describe, implement, and troubleshoot MPLS OAM and Ethernet OAM
 
6. Network configuration and change management
a0 Describe configuration change, implementation, and rollback
Evolving Technologies 10%
1 Cloud
a) Compare and contrast Cloud deployment models
a) [i] Infrastructure, platform, and software services (XaaS)
a) [ii] Performance and reliability
a) [iii] Security and privacy
a) [iv] Scalability and interoperability
b) Describe Cloud implementations and operations
b) [i] Automation and orchestration
b) [ii] Workload mobility
b) [iii] Troubleshooting and management
b) [iv] OpenStack components
 
2 Network Programmability (SDN)
a) Describe functional elements of network programmability (SDN) and how they interact
a) [i] Controllers
a) [ii] APIs
a) [iii] Scripting
a) [iv] Agents
a) [v] Northbound vs. Southbound protocols
b) Describe aspects of virtualization and automation in network environments
b) [i] DevOps methodologies, tools and workflows
b) [ii] Network/application function virtualization (NFV, AFV)
b) [iii] Service function chaining
b) [iv] Performance, availability, and scaling considerations
 
3 Internet of Things (IoT)
a) Describe architectural framework and deployment considerations for Internet of Things
a) [i] Performance, reliability and scalability
a) [ii] Mobility
a) [iii] Security and privacy
a) [iv] Standards and compliance
a) [v] Migration
a) [vi] Environmental impacts on the network

Cisco CCIE SP Exam Description:

The Cisco CCIE Service Provider Written Exam (400-201) version 4.0 is a two-hour test with 90-110 questions that validate professionals who have the expertise to design, implement, diagnose, and troubleshoot complex Service Provider highly available network infrastructure and services based on dual stack solutions (IPv4 and IPv6); understand how the network and service components interoperate; and understand the functional requirements and translate into specific device configurations.

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